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FHWA-SA-05 -12
Revised March 2009
***** NHTSA
www.nhtsa.gov
Pedestrian and Bicycle
Information Center
How to Develop a Pedestrian Safety Action Plan
FINAL REPORT
Prepared for:
Federal Highway Administration
Office of Highway Safety
Project Manager: Tamara Redmon
National Highway Traffic Safety Administration
Project Manager: Leah Preiss
Prime Contractor: BMI-SG, a VHB Company
Report Authors:
HSRC Authors
Ch arles V Zegeer
Laura Sa ndt
Margaret Scully
Consultant Authors
Mi chael Ra n kin
Mike Cyn ecki
P eter Lagerwey
HSRC Student Contributors
Helen Ch an ey
Bastian Sc h roed er
E mil y Sn yd er
Report Design and Layout: Laura San dt
Pedestrian and Bicycle Information Center
Highway Safety Research Center
University of North Carolina
Campus Box 3430
730 Martin Luther King, Jr. Blvd
Chapel Hill, N.C. 27599-3430
Original: February 2006
Reprint: May 2008
Acknowledgements
The project team would like to recognize and express appreciation to the numerous individuals who contrib-
uted information, case studies, and feedback for the Guide. They include:
• Dwight Kingsbury, Assistant State Pedestrian /Bicycle Coordinator, State Safety Office, Florida Depart-
ment of Transportation.
• Craig Raborn, Program Manager for Technical Information, Pedestrian and Bicycle Information Center,
Highway Safety Research Center, University of orth Carolina at Chapel Hill.
• Charles Crim, Project Development Engineer, Local Roads and Streets, Illinois Department of Transpor-
tation.
• Nancy Okasaki, Transportation Planner, Metropolitan Transportation Commission, San Francisco Bay
Area.
• Gabriel Rousseau, Transportation Specialist, Office of Safety Programs, Federal Highway Administration,
U.S. Department of Transportation.
• Elise Bremer-Nei, Supervising Planner, ew Jersey Department of Transportation, Office of Bicycle and
Pedestrian Programs.
• Richard Haggstrom, Senior Transportation Engineer, California Department of Transportation.
• Dave Bachman, Bicycle /Pedestrian Program Manager, Pennsylvania Department of Transportation.
• Kohinoor Kar, Transportation Engineer, Traffic HES (Safety) Section, Arizon a Department of Transpor-
tation .
• Pat Pieratte, Bicycle /Pedestrian Safety Specialist, Florida Department of Transportation.
• Ken Kochevar, Safety and ITS Engineer, Federal Highway Administration, California Division.
• Gerard Soffian, Office of the Director, Signs and Markings, New York City Department of Transporta-
tion.
• Jim Ercolano, Pedestrian Specialist, Pedestrian /Bicycle Program, New York State Department of Trans-
portation Headquarters.
• Cara Seiderman, Project Planner, Environmental and Transportation Planning Division, Community De-
velopment Department, City of Cambridge, Massachusetts.
• Jennifer Toole, President, Toole Design Group, LLC, Maryland .
• Bill Cowern, Transportation Operations Engineer, City of Boulder.
• Ron Van Houten, Professor, Psychology Department, University of Western Michigan.
• Megan Hoyt, Pedestrian Safety Specialist, Pedestrian Program, Seattle Department of Transportation.
• Erik Landfried, Graduate Researcher, Pedestrian and Bicycle Information Center, Highway Safety Re-
search Center, U niversity of orth Carolina at Chapel Hill.
Photo Credits
The images in this document were provided by a variety of individuals and agencies, including:
• Dan Burden
• Cara Seiderman
• Mike C ynecki
• Peter Lagerwey
• Michael Ronkin
• Ron Van Houten
• Jim Ercolano and the NYDOT
• The Pedestrian and Bicycle Information Center Image Library (http:/ /www.pedbikeimages.org)
Table of Contents
Introduction ........................................................................................................................................... 1
Chapter 1: Planning and Designing for Pedestrian Safety-The Big Picture .............................. 7
Chapter 2: Involving Stakeholders ................................................................................................... 19
Chapter 3: Collecting Data to Identify Pedestrian Safety Problems ........................................... 26
Chapter 4: Analyzing Information and Prioritizing Concerns ..................................................... 38
Chapter 5: Selecting Safety Solutions ............................................................................................... 54
Chapter 6: Providing Funding ......................................................................................................... 117
Chapter 7: Creating the Pedestrian Safety Action Plan ............................................................... 125
References .......................................................................................................................................... 133
Appendix A: How to Create and Run an Effective Pedestrian Advisory Board .................... 141
Appendix B: How to Conduct Pedestrian Counts and Behavior Studies ................................ 144
Appendix C: How to Conduct Pedestrian and Motorist Behavior Assessments .................... 147
Appendix D: List of Funding Sources .......................................................................................... 149
Appendix E: Evaluation of a Pedestrian Safety Plan .................................................................. 154
Appendix F: Reference Guide and Plan Summaries ................................................................... 157
Appendix G: Pedestrian-Related Land Use Planning Resources ............................................... 169
Appendix H: Checklist for Engineering and Planning Solutions .............................................. 171
Appendix I: Checklist for Pedestrian Safety Action Plan Elements ......................................... 184
Intro duction
Introduct ion
The purpose of this guide on "How to Develop a Pedestrian Safety Action Plan"
is to present an overview and framework for state and local agencies to develop
and implement a Pedestrian Safety Action Plan tailored to their specific problems and
needs. A Pedestrian Safety Action Plan is a plan developed by community stakehold-
ers that is intended to improve pedestrian safety in the community. An objective of
the guide is to help state and local officials know where to begin to address pedestrian
safety issues. It is also intended to assist agencies in further enhancing their existing
pedestrian safety programs and activities, including identifying safety problems and se-
lecting optimal solutions. This guide is primarily a reference for improving pedestrian
safety through street redesign and the use of engineering countermeasures as well as
other safety-related treatments and programs that involve the whole community. This
guide can be used by engineers, planners, traffic safety and enforcement professionals,
public health and injur y prevention professionals, and decision-makers who have the
responsibility of improving pedestrian safety at the state or local level.
Pedestrian Safety Problem Background
Pedestrian crashes and the resulting deaths and injuries are a serious problem on our
roadways. In 2004, 4,641 pedestrians were killed in traffic crashes, representing 12
percent of all roadway-rela ted fatalities (National Highway Traffic Safety Administra-
tion, 2004). In urban areas, pedestrian deaths typically represent 25 to 40 percent
of traffic fatalities. Approximately 70,000 pedestrians were injured on roadways in
2004, and many of these were severe injuries. While reducing pedestrian crashes has
recently gained increasing priority among some state and local agencies as well as the
U.S. Department of Transportation (DOT), more efforts and programs are needed to
develop and implement effective strategies to reduce pedestrian-related injuries and
deaths.
The safety literature reveals a variety of risk factors that influence pedestrian crashes
and severity. For example, pedestrian crash risk increases on wide roads (fo ur lanes or
more) with high motor vehicle speeds and/ or volumes. Intersections are more dif-
'' In a society
that va lues choice
and freedom,
people should
be able to walk
safe!J, whether
far fun and rec-
reation, errands,
getting to work
or schoo4 shop-
ping, or other
reasons. ''
For more crash sta-
tistics, see HTSAs
Traffic Safery Facts:
2004 D ata, available
at http:// w1J11v-nrd.
nhtsa.dot.gov/
pdf/ nrd-30 / ncsa/
TSF2004 / 809913.pdj
2 How t o Deve lop a Pedestrian Safety Action Plan
ficult to cross when pedestrians encounter wide crossing distances, wide turning radii,
multiple turn lanes, or traffic control that is confusing or complex. Other high-risk
factors include drug/ alcohol use by motorists and pedestrians, lack of nighttime road-
way lighting, and the lack of walkways along roads. Older pedestrians are much more
susceptible to serious or fatal injuries because of their frailty, while young children
(partic ul arly males aged S to 9) are more likely to be struck b y a motor vehi cl e after
darting into the street (Campbell, 2004).
Many pedestrian crashes are the result of unsafe motor vehicle driver and pedestrian
behaviors. Certain roadway designs features can contribute to unsafe behaviors by
pedestrians and motorists. For example, excessively-wide streets encourage higher
motorist speeds. High-volume multilane road s with a lack of safe crossings at regular
intervals can contribute to pedestrians crossing streets at unsafe locations, particularly
those wh o cannot or will not walk great distan ces to signalized locations. Lan d use de-
cisions can also result in areas that are unsafe for pedestrians. For example, separating
residential areas from shopping areas with high-volume multilane roads forces some
pedestrians to cross streets in places that may not be safe. These types of issues must
also be addressed in long-term solutions for pedestrian safety.
The American Association of State Highway and Trans-
portation Officials' (AASHTO, also called the Green Book)
A Poliry on Geometric Design of Highwqys and Streets states:
'Pedestn.ans are a part of every roadwqy environment, and attention
should be paid to their presence in rural as well as urban areas ... pe-
destn·ans are the lifeblood of our urban areas, especial!J in the d02vn-
town and other retail areas" (AASHTO, 2001).
Walking is a basic human activity, and
pedestrians are the lifeblood of many
The National Coop erative Highway Research Program
(NCHRP) Report 500, Volume 10, A Guide for &ducing Col-
lisions Involving Pedestnans, states:
urban areas.
'Walking is a basic human activiry, and almost everyone is a pedes-
trian at one time or another ... Even though pedestrians are legitimate
roadwqy users, they are frequent!J overlooked in the quest to build more sophisticated transportation
9stems. Whether building new irifrastructure or renovating existingfacilities, it should be assumed
that people will walk, and plans should be made to accommodate pedestrians. Where people aren't
walking, it is often because they are prevented or discouraged from doing so" (Zegeer, Stutts, et al.,
2004).
Unfortunately, many of our nation's streets and highways were primarily built to
facilitate the smooth flow of motor vehicles. Yet, walking is the fundamental mode
of human mobility; everyone is a pedestrian at some point in every journey that they
take. This includes walking to a bus or walking to a parking lot. It includes people of
all ages from children to older adults as well as pedestrians with visual and mobility
impairments.
Introduction
It is important to recognize that although many people choose to walk instead of
drive as their only or primary mode of transportation, many others do not have the
choice of driving. According to 2000 Census figures, nearly 15 percent of U.S. house-
holds do not own a vehicle. Also, 25 to 30 percent of U.S. citizens
do not have a valid driver's license. This includes children under
age 16, as well as many older and physically-impaired adults. This
portion of our population should not be prevented from safe and
reasonable opportunities to walk.
In a society that values choice and freedom, people should be able
to walk safely, whether for fun and recreation, errands, getting to
work or school, shopping, or other reasons. Many Americans want
to be able to walk more if given the opportunity to do so. Yet,
many street environments are often inhospitable and unsafe for
walking.
Pedestrian safety and mobility must be elevated to a top priority for
the situation to improve substantially. The engineers, planners, and
other public officials in state and local agencies can leave an impor-
tant legacy of improve d walking conditions and fewer pedestrian
crashes and injuries for future generations.
There are several objectives that transportation professionals should
address to improve pedestrian safety and mobility (a dapted from A
Guide for Reducing Collisions Involving Pedestrians):
•
•
•
Reduce the speed of motor vehicles .
Reduce pedestrian risks at street crossing locations .
Provi de sidewalks and walkways separate from motor vehicle
traffic.
Many Americans want to be
given the opportunity to walk
more, whether for fun and rec-
reation, errands, shopping, or
other reasons.
•
•
Improve awareness of and visibility between motor vehicles and pedestrians .
Improve pedestrian and motorist behaviors .
A variety of strategies are available to improve pedestrian safety. A comprehensive
approach involving the "three E's" (Engineering, Education, and Enforcement), as
well as making pedestrian-conscious land use decisions, is recommended. Engineers,
educators, planners, and enforcement officials all play a role in helping to identify and
implement effective safety improvements
Guide Contents
This guide contains the following chapters:
•
•
•
•
•
Chapter 1: Planning and Designing for Pedestrian Safety-The Big Picture .
Chapter 2: Involving Stakeholders .
Chapter 3: Collecting Data to Identify Pedestrian Safety Problems .
Chapter 4: Analyzing Information and Prioritizing Concerns .
Chapter 5: Selecting Safety Solutions .
3
4 How to Devel o p a Pedestrian Safety Action Plan
• Chapter 6: Providing Funding .
• Chapter 7: Creating the Pedestrian Safety Action Plan .
Chapter 7 provides the framework that state and local agencies can use to develop a
customized Pedestrian Safety Action Plan. The concepts, principles, and information
contained in this guide are based on national guidelines, including (among others):
• AASHTO
• Guide for the Planning, Design, and Operation of Pedestrian Facilities .
• Federal Highway Administration (FHWA)
• Manual on Uniform Traffic Control D evices.
• PEDSAFE: Pedestrian Sajery Guide and Countermeasure Selection System.
• Institute of Transportation Engineers (ITE)
• Traffic Control D evices Handbook.
• D esign and S cifery of Pedestrian Facilities.
• NCHRP
• Report 500, Vol. 10, A Guide for Reducing Collisions Involving Pedestrians) .
Pedestrian plans and design guidelines from local and state transportation agencies
throughout the U.S. are referenced throughou t this guide. Most of the facility recom-
mendations and design principles given here are based on the latest pedestrian safety
research, particularly FHWA and NCHRP research. This guide provides a framework
for 1) reviewing pedestrian problem sites, roadway segments, and other targeted areas
in an organized manner and 2) selecting and implementing appropriate safety mea-
sures.
Intro duction
National Guidelines and Resources
O Design Guidelines
Designing Sidew
and Trails tor~
~---Review of Exi8tillg
Guidellliea 8lld Pr.-i
............................................................. 0
For descriptions of
these documents
and links to ad -
ditional resources,
see Appendix F.
5
6
For descriptions of these
documents and links to
additional resources , see
Appendix F.
How to Develop a Pedestrian Safety Action Plan
National Guidelines and Resources
Countermeasure Selection Tools 0 Research and Policy Tools
PED SAFE:
Pedestrian Saltty Gui de and Counttr.IHSIH Stltction Sys lt•
USCeilo_at.....,....,..,, ---
0
Chapter 1: Planni ng and Designing for Pedestrian Safety-The Big Picture 7
Chapter 1:
Planning and Designing
for Pedestrian Safety-
The Big Picture
The automobile has irrefutably altered the way in which transportation systems and
the built environment are designed and constructed, often at the expense of pe-
destrians. In the majority of crashes between pedestrians and motor vehicles, the pe-
destrian is trying to navigate in an environment designed primarily for automobile use.
This chapter explains how some common roadway design practices can have negative
impacts on pedestrian travel and safety as well as the policies that have led to these
design practices. It also discusses other major factors that affect pedestrian safety such
as street connectivity, site design, land use, and access management. Next, it suggests
changes that can lead to improvements in the pedestrian environment. Finally, it dis-
cusses the need to institutionalize these changes by reviewing, amending, and adopting
policies and design guidelines to better accommodate pedestrian travel. It is impor-
tant to be proactive as well as responsive to pedestrian safety problems. This chapter
reflects the need to develop a Pedestrian Safety Action Plan both as a response to
current design issues and as an effort to integrate pedestrians into the design process
from the beginning to ensure the quality of future developments.
Understanding Pedestrian Characteristics
Good pedestrian safety planning must include an understanding of the characteristics
of pedestrians. With an understanding of pedestrian needs and characteristics, those
involved in pedestrian safety planning can more effectively understand how new and
existing facilities must operate, as well as how pedestrians will act when faced with
certain conditions. Applying a practical understanding of pedestrian characteristics will
provide insights when considering appropriate safety solutions and will particularly
help ensure that facilities are inviting to pedestrians.
Important characteristics include understanding why and where pedestrians walk, what
types of design features create a safer pedestrian environment, and what types of be-
havioral decisions pedestrians are likely to make. In addition, pedestrians also consist
of specific populations with different characteristics, including children (who may be
impulsive or unpredictable), persons with mobility impairments (who may require
specific visibility devices or facility features), and senior citizens (who may require ad-
ditional time for roadway crossings).
''In the major-
iry of crashes
between pedes-
trians and mo-
tor vehicles, the
pedestrian is try-
ing to navigate in
an environment
designed primar-
i/y for automobile
use . ''
8
Many arterial
streets are designed
to accommodate
large volumes
of fast moving
vehicles, often a
risk to pedestrian
safety.
How to Develop a Pedestrian Safety Action Plan
The AASHTO Guide for the Planning, Design, and Operation of Pedestrian Facilities (2004)
includes a comprehensive discussion of pedestrian characteristics and needs.
Transportation Design and Policy Elements that Impact Pedestrian Safety
Several design practices and policies conceived to improve motor vehicle mobility are
now recognized as barriers to a safe pedestrian environment. There are many fac-
tors that affect the safety and mobility of the pedestrian transportation network. The
major planning, design, and policy elements that impact pedestrian safety include:
1. Street design.
2. Street connectivity.
3. Site design.
4. Land use.
5. Access management.
Because this gui de includes a large section on improving
pedestrian safety through street redesign and engineering-
related crash countermeasures, it provides a more detailed
focus on the stree t design elements and those policies
influencing street design choices. The interrelated subjects
of street connectivity, site design, land use, and access
management-while major components of a we ll -built
environment-will be discussed briefly within the context
of providing safer pedestrian environments.
Street Design
The traditional street system is based on a simple hierar-
chy: most trips originate on local streets; travelers are then
ferried via collector streets to arterials, which are intended
to carry large amounts of motor vehicle traffic long distances at higher speeds. This
system is based on the assumption that most trips occur by motor vehicle, so most
of the facilities are designed primarily for motor vehicle travel. The system results in
street d esigns that d o not serve pedestrians well for several reasons:
1. They lack pedestrian facilities : Some collector and arterial stree ts are built with
inadequate or no sidewalks or walkways, discouraging or limiting safe pedestrian
movement along streets. Continuous lighting may not exist to provide adequate
nighttime pedestrian conditions.
2. They are wide or have multiple lanes that are difficult to cross: Since arte-
rial roads are d esigne d to facilitate smooth and efficie nt motor vehi cle flow, they
often have multiple lane s in each direction to accommodate high motor vehicle
traffic volumes and also multiple turn lane s. The number of lanes a pedestrian
must cross has a direct effect on the complexity of the crossing task and the
pedestrian crash risk. The pedestrian must find an ade quate gap in motor vehicle
traffic, a task that increases exponentially with the number of lanes.
Chapter 1: Planning and Designing for Pedestrian Safety-The Big Picture
3. They have high speeds: Wide streets encourage and allow higher vehicle speeds,
which relate directly to more severe injuries (to motorists and pedestrians) when
a crash occurs; the majority of pedestrian crashes and most fatalities occur on
higher speed arterials.
4. They have complex intersections: Typically, wi de arterial streets have intersec-
tions that are even wi der due to the addition of multiple turn lanes . They also
often have large turning radii to allow larger vehicles, such as trucks and buses, to
make turns easily and quickly. This requires pedestrians to cross longer distances
and watch for more cars in more lanes, an often challenging and dangerous task.
Skewed intersection designs and high vehicle right-and left-turn volumes at an in-
tersection can also add complexity to the crossing task. Left turn arrows can also
be confusing to pedestrians.
5. They create long delays for pedestrians at intersections: Wide intersections
and those with multiple turn lanes create a long wait for pedestrians. At times,
crossing prohibitions may be designated for one or more crosswalks to facilitate
turning movements. If a crosswalk is closed, the pedestrian is left with three
choices: cross illegally with no signal protection, walk a long distance around the
intersection, or walk to another location to cross.
6 . They provide little "friction" to protect pedestrians: Much of the traffic engi-
neering philosophy of the last few decades has been aimed at stripping roads of
"friction" (for example, removing trees, etc.) in order to facilita te motor vehicle
traffic flow. This creates a barren, unsafe, and unattractive environment for pedes-
trians, often with high vehicle speeds.
Many of the soluti ons and designs proposed for increased pedestrian safety require
revisiting some of these ass umptions. But none of the proposed designs will create a
less safe environment for motorists or other road users.
Design Speeds
One important concept to understand is design speeds. According to the AASHTO
Green B ook (2001), the design speed of a roadway is the speed that is selected by the
designer for determining the various geometric design features for the road. Although
design speeds for rural roads are typically higher than for d owntown u rban streets, it is
important to provide design speeds that account for the needs of pedestrians, bicy-
clists, and other road users. Lower design speeds may be achieved by providing such
features as narrow street widths, on-street parking, tight turning radii, buffered side-
walks with street trees, short block lengths, short building setbacks, and streetlights.
It is also important to sele ct a design speed for the type and purpose of the road . For
example, on a low-volume, urban local street, it may be appropriate to provide nar-
row roadway wi dths and allow trees fairly close to the road . A suburb an arterial street
might typically have wider lanes, trees and utilities set back further from the road, and
no o n-street parking. Although a design speed may be higher on sub urban arterial
streets (compared to urban local or collector streets), it is still important to provide
9
10
See the Highivqy Capac-
ity Manual for more
on LOS. The HCM
can be ordered from the
Web site http:// trb.
org/ news/ blurb_detaiL
asp?id= 1166.
Ho w to Deve lop a Pedestrian Safety Action Plan
pedestrian accommodations on such roads (e .g., well-designed sidewalks, safe street
crossings, adequate lighting), since pedestrians in those situations should also be able
to walk and cross streets safely
Street Design Policies that have Affected Pedestrians
Achieving a D esired Level of Service
Level of Service (LOS) for motor vehicle traffic is usually measured in letter grades
A through F. LOS A describes free-flowing unimpeded motor vehicle traffic; LOS F
is near gridlock. LOS D is typical of congested urban areas where streets are full and
motor vehicle traffic is moving relatively slowly. It is not uncommon for intersections
to operate at LOS F during the peak periods of traffic.
The measurements and calculations needed to predict or determine LOS are quantita-
tive. However, the desired LOS is often a political decision (or policy), based on how
much congestion decision-makers assume the public will tolerate. Those communities
that have sought to have motor vehicle traffic flow smoothly often have characteristi-
cally wide roads with minimal pedestrian accommodations. Consequently, they often
experience higher crash rates for all roadway users, as both motorists and pedestrians
suffer from the less safe conditions created to achieve these higher levels of vehicle
mobility.
Accommodating Special Vehicles
Careful planning and design assures that
even narrow streets such as the one pie-
Roadway design is usually predicated on the concept of the
"design vehicle." The design vehicle is the largest ve hicle
that can be expected to use the road often enough to
justify designing the roadway to accommodate that vehicle.
Large design vehicles are commonly trucks and buses, in-
cluding trash collection trucks, moving vans, school buses,
and fire trucks. A typical design vehicle for local streets is
known as an SU (Single Unit delivery truck), such as those
used by UPS.
The most critical application of this concept is at intersec-
tions, where the radius is made large enough so the design
vehicle can make a right turn without encroaching into
tured here remain accessible to emergen-
cy vehicles and other large vehicles such
as school buses and moving vans.
the opposing lane. This can have a major negative effect
on pedestrian safety and comfort, because a large radius
allows passenger vehicles to make right turns at higher speeds and requires pedestrians
to cross a longer distance. Large radii at intersections can contribute to a hi gher pedes-
trian crash risk as pedestrians are often hit by turning vehicles.
Street Connectivity
Within the context of the previously described street hierarchy, local streets typically
do not connect well to each other, arterial streets, or destinations such as transit stops
Chapter 1: Plan ni ng and Des igning for Pe d estrian Safety-The Big Picture
or stores. This leads to larger collector
and arterial streets that convey heavy
motor vehicle traffic. This discontinu-
Improving Connectivity of Local Streets
11
ous pattern of local streets limits travel
choices for pedestrians to higher-risk
arterial streets that reduce both comfort
and safety. A lack of street connectiv-
ity leads to intersections that are few in
number-but often large in size-that are
more difficult for pedestrians to navigate.
Many local streets have curvilinear or cul-
de-sac designs that:
Street layout directly impacts the ability to walk or bike.
Connected local streets, sidewalks, and bicycle facilities help
reduce walking or biking distances, provide more choices on
travel, including the use of more local streets, at the same time
d ispersing vehicle traffic. In this example, a path was created
at the end of a neighborhood cul -de-sac to improve the con-
nectivity of the streets for pedestrian and bicyclist use.
1. Limit pedestrians' ability to travel in the most
direct path.
2. May be disorienting.
3. Increase the distances to destinations.
4. Increase pedestrian exposure time to other
vehicles on the road.
5. Discourage walking because of the added
travel distance to destinations.
0
: ...................................... 0
Fewer people walking reduces the motorist's expectation of seeing pedestrians along
and crossing streets.
These street designs have some negative impacts on motorists as well, increasing driv-
ing distance and time, and affecting the response time for emergency vehicles.
Site Design
Many existing developments do not provide direct, clear, and convenient access for
pedestrians. Pedestrians wishing to access a site may have to determine their own path
and navigate through driveways, parking lots, landscaping, and other buildings in order
to reach the destination. This often leads to confusion and conflicts between pedestri-
ans and motorists, resulting in more pedestrian crashes.
Land Use
The practice and evolution of land use planning is long, complex, and generally
beyond the scope of this document; however, an acknowledgement of certain issues
pertaining to pedestrian safety is in order. Land use practices that took shape after
World War II have typically favored the segregation of land uses (e.g., commercial
and employment areas, schools, and residences) and the concentration of commercial
activities along auto-dominated arterial corridors. This has produced the following
unintended consequences:
1. Trip origins and destinations are often far apart.
2. Longer travel distances lead to fewer people walking and more driving.
12
Poorly designed
driveways can
become conflict
points for pedestri-
ans and motorists.
3.
4.
5.
How to Develop a Pedestrian Safety Action Plan
More people driving creates more hectic motor vehicle traffic conditions not
conducive to safe pedestrian environments-those who do walk are exposed to
long distances and high levels of risk when they walk along or try to cross busy
high-speed arterial streets.
The premise that most trips will be made by automobile leads to street designs
intended to accommodate only the automobile, built to handle large volumes of
motor vehicle traffic; when this occurs, pedestrians are often minimally accom-
modated only as an afterthought, if at all.
Many of the destinations and commercial activities along a roadway corridor are
also designed to serve motorists, fostering strip development with ample parking
to capture passing motorists. As most of these destinations are located on arteri-
als, they are hard for pedestrians to access.
The typical land use pattern of concentrating commercial activities along auto-domi-
nated corridors creates generic-looking roads that are hard for pedestrians to cross .
The safety consequences are evident when one analyzes crash data and sees that many
pedestrian crashes occur along higher speed suburban corridors with few or no pedes-
trian facilities and very separated land uses.
Access Management
According to AAS HTO, access management "involves providing (or managing) access
to land development while simultaneously preserving the flow of traffic on the sur-
rounding roadway system in terms of safety, capacity, and speed" (AAS HTO, 2001).
It has widely been used to improve the efficiency and flow of motor vehicle traffic by
limiting the number of driveways and intersections on arterials and highways. In some
cases this has improved safety for pedestrians and motorists alike, but in other instanc-
es it has had the unintended consequence of
facilitating the design of larger intersections
spaced far apart. These intersections are often
difficult and unsafe for pedestrians to cross
due to their size and large numbers of turn-
ing vehicles. Pedestrians wishing to cross at an
intersection may have to walk long distances
out of their way.
For communities that do not limit the num-
ber of driveways and intersections, the issue
of intersection size and spacing may not be a
problem, but an excessive number of drive-
ways can create another problem. For pedes-
trians, every driveway is a potential conflict
point. Vehicles pull in and out of commercial
driveways continuously, and when driveways are designed like street intersections,
turning speeds can be quite high. Too many driveways along a street without proper
driveway design can also create a challenging walking environment for people with
disabilities.
Cha pter 1: Planni ng and Desig n ing for Pedestrian Safety-The Big Picture
Methods to Improve Pedestrian Safety at the Macro-Level
In addition to improving the compliance of all roadway users with traffic controls and
laws, there are seve ral measures that can be taken to improve co nditions for pedestri-
ans within these transportation conventions previously discus sed. Improved pedes-
trian safety can be achieved in a variety of ways, including:
Street D esign Impro vements
To make streets safer for pedestrians, planners, designers, engineers, and officials need
to focus on:
•
•
•
•
Slowing ve hicle s p ee ds .
Reducing street crossing distances for pedestrians.
Improving the visibility of pedestrians and motorists .
Increasing the level of caution taken by pedestrians and motorists.
Providing pedestrian facilities (s idewalks, cro ss ing island s, etc.) where the needs
and potential crash reductions are the greatest by establishing a routine system to
identi fy gaps in the network along streets and highways, p articularly in urban and
suburban areas.
Achieving o ne or m ore of these objectives not only reduces the risk of pedestrian
crashes, but also usually improves safety for motor ve hicle drivers and passengers.
Sometimes a design issue may result in a complication or delay to other roadway us-
ers, and transportation officials will have to make a choice to
balance the competing interests. Officials may perceive thes e
choices to be unpopular or difficult to make, especially for those
whose job has been to move motor vehicle traffic and who m ay
not be aware of values held by the community. H owever, mo st
often a community will be supportive of improved pedestrian
safety; it is important to educate and inform people about how
and why certain choices are made (see Chapter 2 for a discus -
sion on how to involve stakeholders).
To achieve these objectives, some policies may require rethink-
ing or reprioritizatio n. These include:
Achieving a Desired Level of Service
Some effective pedestrian safety measures may increase motor
vehicle travel time and have a slight negative impact on mo-
13
For additional iefor-
mation on pedestrian-
friend!J street design,
refer to the !TE Traffic
Calming S fate of the
Practice report, available
online at: http :// 1vww.
ite.org/ trqffic/ testate .
htm .
Oth er Web sites that
provide useful informa-
tion include:
http://www.walkable.
org/ andhttp://www.
trafficcalming. org/.
tor vehicle LOS. A rebalancing of the transportation system
where pedes trian LOS and safety are included may sometimes
mean a ch an ge in expectations about the priority that motor
vehicle LOS is given in design and decision-making. If serious
safety measures are to be achieved, the particular LOS may be
lower for motor vehicles than if those measures were not taken.
Improvements in cap acity can be achieved in other ways: by
Some wide streets are intimidat-
ing a nd unsafe for pedestrians (top
photo), but wide streets can still be
designed to work for pedestria ns
(bottom photo).
14 How to Develop a Pedestrian Safety Action Plan
expanding the capacity of other transportation options, re-thinking land use strategies,
or determining where important destinations-such as schools-are to be located.
Accommodating Special Vehicles
The conflict between vehicle accommodation and pedestrian safety is usually con-
sidered a design decision, but it is also a values (policy) decision. An intersection can
be designed with a smaller radius than is typically used for a particular design vehicle,
thereby increasing pedestrian safety b y reducing crossing distance / exposure. The
motor vehicle driver can still make the turn, but the truck will have to maneuver into
an inside lane to complete the turn. Communities with streets designed around the
School
concept of "bigger is better" are communities that often pro-
vi de poor pedestrian service and typically have poor pedestrian
safety records. Conversely, communities that place a high prior-
ity on pedestrian safety and convenience do more to balance the
needs of large vehicles with the needs of pedestrians in their
street designs. This does not mean trucks, school buses, and fire
trucks cannot use the streets-they are accommodated; they
just usually need to travel at a lower speed and take care in mak-
ing turns. Transportation professionals are asked to carefully
weigh these factors when making street design decisions.
Street Connectivity Improvem ents
Increasing street connectivity creates a safer, more pedestrian-
friendly street system by:
• Reducing walking distances.
• Offering more route choices along quiet local streets.
• Dispersing motor vehicle traffic with more two-lane, neigh-
borhood commercial streets, which relieves motor vehicle
traffic from arterials to makes streets safer for pedestrians to
walk along.
• Reducing the need for wide, difficult to cross streets and
intersections by providing more connections.
In the top image, the residential
streets are not well-connected
and the pedestrian path is very
long; below, connected streets
provide a more d i rect route to
the school.
Street connectivity with the transit network is very important. If
people are to use transit, then their role as pedestrians on both
ends of their trip is important and should be accommodated on
well-connected streets.
Street connections are vital to pedestrians, and there are many
things that can be done to improve the connectivity of existing
street networks and plan for the connectivity of future develop-
ments. Here are a few potential solutions:
• Improve existing local street connectivity and circulation by adding sidewalks,
paths, stairs/ ramps, gates, etc. to link dead-end streets and cul-de-sacs to other
Chapter 1: Planning and Designing for Pedestrian Safety-The Big Picture
Importance of Pedestrian Facilities in Disaster Preparedness
State of New York
Mass evacuation on-foot is often the only available means for people to quickly escape terrorist at-
tacks, sudden natural disasters, or to cope with other actions or incidents that may cause highway,
transit and/or commuter rail systems to shut down for an undetermined period. Successful mass
movement of pedestrians witnessed during the September 11, 2001 attacks in New York City, the
August 2003 Northeast Power Outage, and the 2005 transit strikes show that walking is the most
reliable and sustainable mode of transportation for overcoming obstacles.
From a design and operational standpoint,
at-grade/street-level pedestrian access has
been found to be the safest design feature
for expediting pedestrian traffic movements
when mass evacuation occurs. Inhibitors to
mass evacuation (that should be avoided) in-
clude:
Restricted at-grade pedestrian access due
to longer blocks, fencing, and barriers .
Pedestrian structures susceptible to move-
ment and/or collapse (partial or total).
Pedestrian tunnels susceptible to flood -
ing or exit/entry obstructions.
Building site and frontage design configurations that impede pedestrian traffic.
While vehicular travel lanes in urban main streets and central business/walking districts may ex -
perience surges of pedestrian traffic, adequate pedestrian facilities are still more suitable for use
during more localized mass evacuations. This is because:
Travel lanes may be clogged or obstructed with abandoned vehicles and/or debris.
On -street and highway motor vehicle traffic may still be active during evacuation .
Motorist panic and general confusion may make pedestrian use of roadways hazardous.
Travel lanes may be restricted to emergency, military, or government uses.
When a major sub-regional or regional catastrophic event occurs, the pedestrian use of travel lanes
must be included in transportation, law enforcement, emergency management, and military co -
ordinated evacuation planning and recovery action plan efforts. This is important because major
catastrophic events will involve massive pedestrian traffic surges at critical regional transportation
bottlenecks and should be fully anticipated and strategically planned. Based on prior experience,
travel lanes expected to carry the highest pedestrian volumes should be mapped and pre-desig -
nated for the quickest removal of any obstructions that might hinder rapid at-grade pedestrian
evacuation.
This information provided by Jim Ercolano at the NYDOT. For more information, contact Mr.
Ercolano at jercolano@dot.state.ny.us.
15
16
Site design matters
to pedestrians. In
this example, the
design of driveways,
building setbacks,
parking, buffers,
and sidewalks all
contribute to the
safety of the walk-
ing environment.
•
•
•
How to Develop a Pedest rian Safety Action Plan
parts of the street network.
Maintain a pedestrian connection (e.g., provide a path in the right-of-way or side-
walk easement) when a street is being severed (it is more difficult to purchase an
easement for a connection later).
Increase the number of access points to and from neighborhoods and other
destinations, so not all trips are funneled through one or two large intersections or
access points. More neighborhood travel options means less motor vehicle traffic
on any given street.
Design future developments with improved circulation patterns within neigh-
borhoods so more neighborhood automobile trips can be taken on local streets,
reducing the need to widen arterials. This may conflict with some traffic-calming
techniques, but speeds can be controlled through other measures (see Chapter 5
for further discussion).
Site Design Improv ements
Both small-scale and large-scale developments should be directly accessible from the
sidewalk through a safe and convenient sidewalk or pathway. Many communities are
achieving better pedestrian safety records by requiring businesses and developments to
locate close to the street (with parking provided in the
back) in more pedestrian-oriented site developments
that balance auto access with pedestrian needs and
facilities. This does not mean that auto access is denied;
it is just managed more appropriately.
These site design goals are achieved by enacting lo-
cal zoning ordinances, which must be enforced. These
principles contribute greatly to the safety, comfort, and
aesthetics of the walking experience .
Land Use Improvem ents
Land use planning has often been considered a discipline separate from transporta-
tion planning, street design, and traffic engineering, and insufficient emphasis has been
placed on the coordination of the two planning processes. However, the relationship
between land use and transportation is evident, and the responsibility to coordinate
between the two is imperative. Some changes to land use patterns that may positively
influence pedestrian safety include:
•
•
Encouraging mixed-use development (such as allowing small-scale retail in neigh-
borhoods or placing schools in the center of neighborhoods) to help create desti-
nations within walking distance of where people live and work.
Designing new neighborhoods in a cluster pattern with many destinations acces-
sible on foot to residents.
Other ideas are detailed in Chapter 5.
Chap t er 1: Plann ing and Designing for Pedestrian Safety-The Big Picture
Access Management Improvements
• • • • •• • • • •• • • • • . •
Proper access man-
agement can control
turning movements to
reduce conflict points,
encourage cluster
development, improve
street connectivity, and
create more acces-
sible land use patterns
to improve the overall
safety of the pedestrian
environment.
One of the most important access management techniques includes reducing conflicts
at driveways to improve the walking environment. Some driveways can be closed-
increasing the safety of both pedestrians and motorists-without impeding access to
local businesses. Access management tools should not be used to reduce public street
connections, especially pedestrian connections to the transportation network. Other
access management goals can work in favor of pedestrians within th e context of other
important planning and policy issues, including:
•
•
•
•
Constructing medians to control turning moveme nts .
Encouraging clustered develo pment and mixed land uses .
Improving street and neigh borhood connectivity .
Converting auto-oriented strip development into more accessible land use
patterns more suitable for pedestrians.
Reviewing Pedestrian Policies and Design Guidelines to Improve Pedestrian
Safety
A multimodal approach to policy-making is needed. Agencies need to review their
design guidelines and policies to ensure that quali ty facilities are provided with both
developer-built and new agency-built roadway projects. New facilities must be full y
accessible to all pedestrians. Chapter S provides a more complete list of common and
effective practices that may serve as a template for reviewing the current status of
agency policies and guidelines. It provides policies and design recommendations orga-
nized into the following sections:
1. Improvements along the road (o n sidewalks, at driveways , etc.).
2. Improvements for crossing the road (a t rnidblock locatio ns and signalized/unsig-
nalized intersections).
3 . Transit improvements.
4. Speed control measures.
5. Land use and site design .
17
18 How to Develo p a Pedestrian Safety Action Plan
The ima ge on the left provides the "before" view of a typical arterial street designed primar-
ily for automobile use. In the "after" photo on the right, a digital illustration provides an
example of how simple changes-access management, a raised median, bicycle lanes, side-
walks, and landscaping--can make such spaces more safe and appealing for pedestrians.
Fo r more information,
rea d D an Burdens
essqy, "H o1v Can I
Fin d and H elp Build
a Walkable Co mmu -
nity" at http :// JJJWW.
walkab le. org/ article 1.
htm.
To list a few examples from the chapter:
•
•
•
Sidewalks or walkways are desirable on most urban and suburban roadways, and
efforts should be made to establish priorities for adding needed sidewalks.
Pedestrian signals (i.e., WALK/DO 'T WALK messages, symbolic hand /walk-
ing man messages) and marked crosswalks are desirable at all traffic signals where
pedestrian crossing activity is expected, particularly at wide streets.
Transit stops should be located where pedestrians can safely cross the street .
There are numerous other guidelines that can be used to identify design and traffic
management practices to incorporate into appropriate agency manuals. The review of
agency policies and design guidelines for pedestrian facilities should be a priority. Most
improvements to the street/pedestrian infrastructure will be gradual and implemented
over many years as a part of future development and roadway reconstruction projects.
Finding th e Appropriate Docum ents to Re view
In most communities, the built environment is governed by a variety of processes. In
some communities, public works departments have developed their own guidelines for
roadway design that may need to be revised to conform to recommended practices.
In other localities, subdivision ordinances are the ke y element to be reviewed and
updated to ensure the development of safe pedestrian facilities. It may be challenging
to pinpoint what is wrong with those ordinances, what is missing, or what effect they
are actually having on the built environment, but they provide a starting point for the
review and comparison of policies and guidelines outlined in this guide. The process
of plan review is also important, and transportation officials need to know what to
look for in development proposals. This chapter and Chapter 5 provide important
examples of both macro-and micro-level elements that should be considered in de vel-
opment plans to ensure the highest level of pedestrian safety.
Chapte r 2: Involvin g Stakeh old ers
Chapter 2:
Involving
Stakeholders
Stakeholders include people who have a share or an interest in a particular policy,
program, or project and may be affected by its implementation. Stakeholder in-
volvement is an essential element in creating publicly supported and trusted policies,
programs, and projects that reduce pedestrian crashes while creating livable, walkable
communltles.
Public participation is not an end in itself, but part of a broader process of sustainable
development. Participation is an important mechanism that can help create trust and
credibility with stakeholders. The public should be included throughout the planning
process, and the participation of all interested and affected parties-including vulner-
able and disadvantaged persons-must be promoted.
Public stakeholders should be seen as useful partners in bringing helpful information
and judgment to the table. They often are the on-the-ground scouts who can identify
problems, needs, and opportunities. Since the professional staff cannot be everywhere
at all times, the public can serve as additional eyes and ears and be effective resources .
The extent of the processes in which local agencies involve the public will vary ac-
cording to their size and budget. Some communities are better equipped to implement
these strategies while others may not have the resources and staff to implement all the
strategies, so some modification and "tailoring" of these recommendations may be
required.
State and local agencies operate and relate to the public differently, so some modifica-
tions of the recommendations in this report will be needed to accommodate these
differences.
19
'' Stakeholder
involvement is an
essential element
in creatingpub-
lic!J supported
and trusted poli-
cies, programs,
and projects that
reduce pedestrian
crashes while
creating livable,
walkable com-
munities. ''
20
: ........... 0
: ........... o
How to Deve lop a Ped es t rian Sa f ety Acti on Pl an
Public Involvement Through Meetings and Workshops
Denver, CO
The City of Denver held two rounds of four public meetings at key points in the
process of developing the Pedestrian Master Plan in order to identify all potential
issues and problem locations within the pedestrian
environment. A final ninth public meeting was held
prior to finalization of the Pedestrian Master Plan .
During the first round of workshops, citizens were
given the opportunity to comment on the general
obstacles they faced in the pedestrian system and to
provide information on ways to improve the infra-
structure. During the second round of workshops,
the public provided feedback on the proposed pe -
destrian routes, among other issues.
Public input was received not only from the work-
shops but also from email and facsimile. This input was used to develop policy and
to prioritize projects. In addition to expert review and monitoring by the Advisory
Team, input was also solicited from other City officials within various City depart-
ments. The plan was reviewed by several special interest groups, internal staff, the
Planning Board, and the City Council prior to finalizing the Pedestrian Master Plan.
For more information, visit: http://www.denvergov.org/transportation_planning/.
Who are the Stakeholders?
Stakeholders include five distinct groups:
1 . Indivi dual citizens.
2. Citizen-based organizations.
3. Public employees, officials, and agencies.
4. The private sector (in cluding local business owners and developers).
5. The media.
All have a unique role to play and require a different strategy for involvement.
Individual Citizens
Requests from individual citizens are an important way for agencies to learn about
problems at specific locations. Typically, citizens will contact agencies with a request
for a particular treatment such as a marked crosswalk. While citizens may or may
not h ave asked for the correct solution, they are likely to have identified a pedestrian
problem. Sometimes, the problem citizens perceive is different than an analysis of
data reveals. Consequently, the first step is to figure out the problem that the citizen is
trying to solve. Sometimes it is obvious, other times it may require further communi-
cation with the citizen, a field visit, and an engineering study.
Chapter 2: Involvi ng Stakeh ol ders
Responding to citizen requests can be a
time-consuming task. Agencies should de-
velop procedures for quickly determining
which requests deserve a higher level of
attention. Time and money are often best
spent addressing the problems that are
most likely to reduce pedestrian crashes.
For example, in Seattle, the staff gets
together once a week to review citizen
requests to perform a quick assessment
of needs and priorities, asking questions
such as:
• What is the crash history?
• Have there been previous com-
plaints?
• Is it a location with a high volume of
pedestrians?
• Is it likely that this problem will
cause a crash?
• Is there a clear design problem?
• Is it a maintenance problem?
• Would moving a transit stop elimi-
nate the problem?
• Is there already a project in the area
that will address the problem?
Using the collective memory of the group
with some data, it is often possible to pri-
oritize the requests and identify those that
require further analysis. Citizens always
deserve a response whether it is a phone
call, email or letter. Most agencies already
have procedures that dictate the appropri-
ate way to respond.
Public Involvement to Develop a Transpor-
tation Needs Database
Portland, OR
Portland's Pedestrian Transportation Program has made use
of the city 's active and engaged citizenry to help identify,
develop, and prioritize pedestrian projects and to create its
1998 Pedestr ian Master Plan.
The city held a series of nine open houses in the spring of
1995 to solicit comments and needs requests for the Pedes -
trian Master Plan . Among other activities, attendees were
offered the opportunity to "pin the tail on the problem" by
filling out a card to identify a need and marking the loca-
tion on a map with a numbered sticker. Later, a second
series of nine Pedestrian Master Plan Workshops were held
around the city to present the projects proposed in the
Plan . Throughout the project, presentations were made
upon request by neighborhoods and other groups in order
to encourage further participation .
All the needs, requests, and project suggestions received
during the open houses , district coalition presentations,
and workshops for the Pedestrian Master Plan project were
added to a database of information regarding neighbor-
hood transportation needs. Also included in the database
were suggestions or complaints collected through phone
calls , letters, and various public presentations.
For more information, visit: http://www.trans.ci.portland .
or.us /pla ns/pedestrianmasterplan/default.htm or http://
www.portlandtransportation.org.
One obstacle to receiving citizen requests and feedback is that citizens often do not
know who they should address their concerns to or how. In a heavily populated
county, there may be several municipalities with jurisdiction over local streets, as well
as the county and state DOT, each with its own roads . Many citizens have little idea
which agencies actually maintain the roadways and traffic signals and do not know
who to turn to to make a request. One way to obtain more feedback from pedestrians
is to increase and improve Web-based outreach programs. A highly visible link on a
traffic agency Web site can help direct feedback to the best place or provide additional
information. Another technique helpful to citizens may include posting an agency
phon e number or Web site on traffic signal controller boxes, typically located near the
corners of signalized intersections, or in areas with high pedestrian activity.
21
22 How to Develop a Pedestrian Safety Action Plan
Citizen-Based Organizations
Citizen-based organizations can roughly be divided into special interest groups such
as a Pedestrian Advisory Board (PAB ), and geographically-based groups where people
are members by virtue of living or having a business in a particular neighborhood.
Also included in this category are various advocacy and non-profit organizations. All
these groups can play a critical role in creating a better walking environment.
Pedestrian Advisory Boards
State and local agencies should consider forming a Pedestrian Advisory Board (or
Council or Committee) to obtain ongoing, good citizen input. It is an excellent way to
get a better product while building support for agency policies, programs, projects and
funding. Meeting times, places, and frequencies will vary depending on whether it is a
state or local PAB. State PABs tend to only meet several times a year-often at loca-
tions around the state to accommodate its members. Local PABs usually meet month-
ly, often at the same location . It is preferable to have se parate pedestrian and bicycle
boards so that pedestrian boards can focus solely on pedestrian issues. If this can't be
achieved, meas ures need to be made to ensure that both the pedestrian and bic ycle
modes get equal attention. Creating and running an e ffective PAB requires a thought-
ful, purposeful, and informed strategy. See Appendix A for detailed recommendations
on how to create and run a successful Board .
Geographically-Based Groups
Worki ng with local neighborhood associations is another excellent way to get a better
product while building support for agency policie s, prog rams, projects, and funding.
As with PABs, it requires a thoughtful, purposeful, and informed strategy.
Citizen's Pedestrian Advisory Board
Oakland, CA
The Citizen's Pedestrian Advisory Committee (CPAC) provided continuous public oversight and
feedback during the development of the Pedestrian Master Plan . The CPAC was composed of
district representatives appointed by each City Council member and one mayoral appointee from
each of the Mayoral Commissions on Aging and Dis -
ability. Additional representatives of several com-
munity stakeholder groups including the Building
Owner's and Manager's Association (BOMA), the
Bicycle and Pedestr ian Advisory Committee, and
Urban Ecology also attended meetings. The CPAC
met monthly for one and a half years to oversee
the planning process .
For more information, visit: http://www.oakland -
net.com/government/pedestrian/index.html.
Cha pter 2: Invo lv ing Stakeholders
Advocacy and Non-Profit Groups
These organizations may represent a spectrum of interests, from promoting walking
or advocating for the rights of people with varying disabilities, to protecting the en-
vironment or encouraging bicycle facility development. Often, these groups will have
an interest in promoting pedestrian safety in concord with their overall objectives but
may in other cases be opposed to certain changes. Agencies should be aware of these
groups and work to include them in the public involvement process, forming partner-
ships when applicable.
Public Emplqyees, Officials, and Agencies
Public employees, elected officials, and local agencies are also stakeholders, but their
level of participation in the public involvement process may differ, depending on the
level at which the pedestrian safety action plan is meant to be implemented. A regional
plan developed by a state, Metropolitan Planning Organization (MPO), county, or oth-
er similar government will most likely address these stakeholders in a different manner
than local plans will. Public agencies are important stakeholders to the extent that the
policies, projects, and programs developed in the plan affect their areas of respon-
sibility. For example, a major arterial project is likely to have a significant impact on
area drainage and therefore will require involvement and buy-in from the agency that
manages surface water runoff. The same will be true for all major public and private
utilities. Transit agencies are an important stakeholder group for projects related to
pedestrian facilities and safety near and at transit stops. Agencies involved with Public
Health may also take an interest in promoting pedestrian safety and be able to pro-
vide valuable resources and partnership opportunities. It is in the states' and localities'
interest to build positive, working relationships with these individuals and agencies.
Private Sector
The private sector includes individual business owners (e .g., local businesses or devel-
opment firms) or more formal business-related organizations. Members of the private
sector have an interest in the built environment from several perspectives: as members
of the community, from an investment standpoint, and as users of the environment
(e .g., employees or customers). Some will be interested in investing more-they may
offer to provide financial resources to make improvements or help out with mainte-
nance. Many businesses are important pedestrian generators that contribute to the life
of a street and can affect a street's walkability; therefore, it is valuable to include these
business owners when implementing a pedestrian safety action plan.
There are, of course, regulatory tools that impact the private sector, such as zoning
or building regulations. Private individuals will be interested in participating in discus-
sions that propose to make changes that will impact them as well.
Involving the business community may require a different approach th an traditional
public participation methods. Members of the priva te sector may not come to public
meetings but respond better on a one-on-one basi s or in forums dedicated to only
23
24
For more info rmation
on stakeholder involve-
ment, see the Virginia
Tech On-line too lbox
'Partnerships and
Participatio n in Plan -
ning" at http :// w1vw.
uap .vt.edu/ cdrom/ in-
tro/ index.htm or read
the FHWA document
'Pu blic In vo lvement
Techniqu es for Transpo r-
tation D ecision -making"
at http:// ww1v.fh1va.dot.
gov/ reports / pittd /cover.
htm.
How to Develop a Pedestrian Safety Action Plan
their participation where they will get a chance to meet and network with elected
leaders.
The Media
Media outlets have an interest in public welfare and information. Good working rela-
tionships with the media contribute to more effective pedestrian safety programs. It
is important to develop strong lines of communication with media personnel so that
they are able to give an informed, accurate report on the issues. Agencies can actively
seek media coverage through pres s releases, news conferences, or other media events
in order to provide information to the media in a planned and professional way. By in-
cluding the media as a stakeholder group, state and local agencies will be able to make
them part of the solution and avoid potential negative or ill-informed media coverage.
They will gain more accurate publicity to spread awareness of pedestrian safety issues
as well attention to what is being done at the state and local levels.
General Strategies for Involving Stakeholders
Provide Quality Information
Part of the strategy for working with stakeholders is to provide information that
invites good input. Informed citizens and other groups are more likely to identi fy real
problems and provide more constructive feedback on project proposals. A good Web
site along with written information can be helpful. For example, it is often useful to
provide information on when, where, and why marked crosswalks are installed. An
informative Web site with answers to lists of Frequently Asked Questions (FAQs) can
reduce the number of frivolous or misguided reque sts or complaints.
Include Both State and Local Agencies
This activity is important for both local agencies and for state projects on state roads.
Most policy, program, and project initiatives will be an activity for local agencies since
they involve local residential and arterial streets. This, however, will var y from state to
state. In some states, most arterial streets are state roads; in some big cities, very few
arterials are state roads; in small towns, it is not uncommon for the two or three major
roads running through the city to be state roads. Some cities are multijurisdictional
(e.g., Las Vegas). Make sure all concerned agencies are involve d.
Consider Neighborhood Plans
Neighborhood (or se cto r) plans can be an excellent way to establish community priori-
ties and generate support for pedestrian related safety improvements. Many cities have
named neighborhood districts, each with its neighborhood plan. For example, Phoenix
is subdivided into 15 urban villages, each with their own Village Planning Committee.
In Seattle, the city has been divided into 38 neighborhood sub-areas. When give n the
opportunity to dev elop their own neighborhood plans, 34 of these sub-areas identified
pedestrian safety issues as their top priorities. Transportation agencies should always
look to these plans for guidance when developing policies, projects, and programs be-
Chapter 2: Involving Stakeholders
cause these plans will only have value if they are used and referenced. More informa-
tion about the Phoenix and Seattle plans is available in Appendix F. Also see previous
section on Geographically-Based Groups.
Establish Venue s for Participation
Stakeholders should have multiple ways to participate.
Outreach should include opportunities to attend public
meetings, emails, telephone calls, and filling out comment
forms. These approaches will result in a broader, more
diverse group of citizens providing input that will increase
project acceptance and success.
Hold Public Meetings or Events
Public meetings and events can be an excellent way to
solicit public input on plans and projects. They require structure and control in order
to make progress and remain focused. Public meetings may have different formats or
elements:
1. Open House with tables with project information-citizens get a chance to look
at plans, write on the plans, ask questions, and talk face to face with project plan-
ners, designers, and managers.
2. Formal Presentation-citizens hear a formal presentation explaining the project,
typically followed by a question and answer session.
3 . Formal Public Testimony-this may be desired or mandatory at certain phases
of a project.
While public meetings have value, it is also important for citizens to have other op-
portunities for providing feedback. Not everyone is willing or able to attend a public
meeting. Sometimes hosting forums at different times (e.g., weekends) or providing
childcare can help. Other ways of soliciting general input-such as charettes, walking
meetings, Web surveys, etc.-should also be considered.
Create a Prr!Ject-Specific Task Force
A task force may be desirable and useful for large, complicated, and/ or controversial
projects. Typically, a task force will be more involved in the early stages of planning
and design. When forming a task force, many of the same principles used for form-
ing PABs will apply. It should represent the community, and roles and responsibilities
should be clear. The task force should include both local residents and members from
the larger community to provide a balanced representation of the community as a
whole.
25
26
'' Crash, road-
wqy, traffic, and
other data are
essential to iden-
tify pedestrian
safery deficien-
cies and to select
the appropriate
improvements
to make condi-
tions safer for
pedestrians and
other roadwqy
users. ''
Chapter 3:
Collecting Data
to Identify
Pedestrian Safety
Problems
How to Develop a Pedestrian Safety Action Plan
Agencies need to know where pedestrian safety deficiencies exist, how extensive the
safety problems are, and what new projects, programs, and polices can provide
the biggest safety benefit, including those related to engineering, education, and en-
forcement. As discussed in Chapter 2, stakeholders can be a good resource in identify-
ing safety concerns and deficiencies, and data may be required to verify these prob-
lems. Other deficiencies are identified by collecting data and developing procedures
to analyze the data. This process occurs before an action plan can be formulated.
While collecting and analyz ing data are crucial, an agency should not spend excessive
resources on this task to the point where there are no resources availab le for imple-
menting safety improvements. It is important to know how much data and what types
of data are needed to identify, prioritize, and implement safety projects (discussed in
Chapter 4) as well as evaluate the effectiveness of completed safety improvements
(discussed in Chapter 7).
Types of Safety Projects
Agencies should identify and prioritize the followin g types of projects for pedestrian
safety improvements:
1. Spot Locations: individual intersections and non-intersections.
2. Corridors: may be roadway sections of 0.8 km to 8 km (0.5 mi to 5 mi) or more
in length.
3 . Targeted Areas: may be as small as a single neighborhood or business district to a
large area where pedestrian crashes are disproportionately high.
4. Entire Jurisdictions: Some types of crashes are frequent but are scattered
throughout an entire jurisdiction (i.e. they are not spot location-or area-specific).
They must be addressed through system-wide changes, such as making it a policy
to install pedestrian WALK/DO 'T WALK signals at all traffic signals .
Agencies should challenge themselves to make safety improvements immediately and
not wait until all data collection efforts are completed. Very little data are needed to
Ch apter 3: Co ll ecting Data to Id entify Pedestrian Safety Prob lems
make simple, low-cost improvements such as the installation of advanced stop bars
on multilane roads, or the upgrade or installation of warning signs where high num-
bers of pedestrians cross busy streets. Additionally, when there is a known problem
spot location or targeted area, data should be collected immediately without waiting to
complete larger, more comprehensive computerized databases which can take several
years to develop. Early improvements will allow the community to understand the
value of the pedestrian safety program and will encourage elected officials and staff to
make further improvements.
Information Needed to Identify and Quantify Pedestrian Safety Deficiencies
Crash, roadway, traffic, and other data are essential to identify pedestrian safety
deficiencies and to select the appropriate improvements to make conditions safer for
pedestrians and other roadway users. More data and higher quality data will typically
give an agency more tools to identify and address safety problems. An agency cannot
collect everything; it will have to prioritize its data needs. In some instances, improve-
ments in databases or more accurate or timely data will enhance the ability to identify
pedestrian deficiencies.
Every effort should be made to create geo-coded pedestrian crash databases that al-
low for easy identification of problem locations and areas. This is especially important
for large agencies that may need to examine extensive areas and numerous pedestrian
crash reports. Most crash reports do not include geo-coded location data, so agencies
may need to rely on their expertise about their jurisdiction to properly geo-code crash
locations. Once created, databases should be maintained and updated so they retain
usefulness over time.
Pedestrian/Vehicle Crash Data
Oakland, CA
!~·-------
90 ......... .
27
•••••• 365 •.•••
The Pedestrian Master Plan for the City of Oakland includes a lengthy
description of pedestrian/vehicle crash data. The Oakland plan relies
upon data collected from the Statewide Integrated Traffic Records
System (SWITRS), a database of crash records collected by the Califor-
nia Highway Patrol (CHP) and local police throughout California. The
document reveals rates of pedestrian crashes and the most common
causes of pedestrian crashes, including percentages of crashes which
were primarily the fault of the motorist versus the pedestrian. In ad-
dition to providing a map of pedestrian crashes, the plan outlines the
intersections with the greatest number of pedestrian crashes, senior
pedestrian crashes, and child pedestrian crashes and specifies which of
the high pedestrian crash intersections are controlled by traffic signals.
The plan reports groups most at risk of pedestrian injury by age and
sex and highlights the times of day when pedestrians are most at risk
CHILDREN ADULTS SENIORS
• IN CROSSWALK 0 OTHER • NOT IN CROSSWALK :
of injury. Finally, the plan compares rates of pedestrian/vehicle crashes in Oakland
with statewide averages.
For more information, visit: http://www.oaklandnet.com/government/pedestrian/
index.html
...................
T he grap h above
from t he O akland
plan displ ays the
p edestrian action
in vehicle collisions
by age group.
28 How to Develop a Pedestrian Safety Action Plan
Agencies need to review their capability to collect data and should ensure that they
have sufficient staffing and training for this task. D ata should only be collected if they
will be used . Modest improvements in data may be more effective than collecting large
quantities of additional data that an agency does not have the ability to manage. The
following is a list of data that can be helpful in identifying and prioritizing pedestrian
safety deficiencie s.
Crash Data
Elements of a good crash
database: The most important data are pedestrian crash records. State
and local agencies should colle ct and maintain crash data, and
• Inclusive of ALL pedestrian
crashes available.
• Timely.
• Accurate (will require a review
of police narrative).
• Geo -coded (with programs to
assist in identifying problem
locations).
every effort should be made to include all pedestrian cra shes.
In some cases, pedestrian crash data collection efforts may b e
linked with data collection on bicycle crashes, because both
are often not included in highway safety d ata . Agencies must
understand the limitation s of the state computerized crash
• databases; most only include crashes with motorized ve hicles,
and many non-injury pedestrian crashe s or those involving
minor injuries are unreported . There have been examples of
agencies collaborating with hospitals to reduce non-reporting,
but there may be some priva cy issues associated with these
· · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · efforts. Statewide crash data need to be timely and accurate so
For more information,
refer to the stucfy ''Pedes-
trian and Birycle Data
Collection in United
5 tales Communi-
ties: Quantifjing Use,
Survrying Users, and
Documenting Facility
Extent" athttp://www.
pedbikeinfo. org/ pdf / cas-
estudies / PBIC_Data_
Col/ection_ Case_S tud-
ies.pdf.
an agency can promptly identify and respond to a crash prob-
lem and monitor trends. Hav ing to wait several months for statewide computerized
data can severely hamper an agency's ability to respond to a crash location, especially
in rapidly developin g areas. Collaboration between state and local agencies assures that
all involved p arties have access to current data.
If there is a long time lag in the availability of crash data, a local jurisdiction may need
to maintain its own interim database to allow for timely identification of problem lo-
cations. Furthermore, the police should develop procedures to notify traffic or public
works officials responsible for operating the roadway system when a serious pedestrian
crash occurs in order to immediately assess the conditions. ews reporters will often
contact the traffic department as soon as they learn of a serious pedestrian crash. The
traffic department should have the same timely information as the media.
Police Reports
Computerized pedestrian crash data are essential to efficiently identify high-crash
locations, corridors, and/ or larger areas, but individual police reports are essential in
documenting precisely where, how, and why each crash occurred. The most impor-
tant part of the police crash report is the officer's narrative, and the police should
thoroughly and precisely document crash details. Care should be taken with some of
the information included in a police report. Some investigating police officers are not
aware of the legal definition of an unmarked crosswalk, and sometimes a pedestrian
in an unmarked crosswalk will incorrectly be listed "at fault" for not using a crosswalk.
Educating officers in proper terminology and police training on pedes trian legislation
can help reduce such errors. Rather than assign fault, it is better for police crash re-
Chapter 3: Collec t ing Data to Identify Pedestrian Safety Problems
ports to simply list actions in a neutral manner, such as "failed to yield while turning."
This makes it easier for analysts to classify and sort the data. Another common error
in crash data is that the nearest intersection is coded when the crash really occurred at
a midblock location.
Some information may require follow-up investigation such as issuing citations or
BAC / drug testing, which may not be recorded on the original police report. For seri-
ous injury or fatal crash reports there is often a supplemental police investigation that
can provide considerably more details on the crash, including witness statements and a
thorough investigation of roadway, motorist, and pedestrian conditions at the time of
the crash.
Pedestrian Crash Data
Miami Dade, FL
The Miam i-Dade County MPO has created a series of maps using Geographic Information Systems
(GIS) software in order to identify high pedestrian crash areas to be addressed with pedestrian crash
countermeasures. The maps shown below were created by the Miami-Dade MPO in conjunction
with the National Highway Traffic Safety Administration (NHTSA) pedestrian safety demonstration
project, which seeks to reduce the deaths, injuries, and associated crash costs within the county's
urban setting. Miami-Dade County had a high number of pedestrian crashes and number of deaths
and injuries relative to other counties in the state.
For more information, visit: http://www.miamidade.gov/mpo/docs/MPO_ped_plan _2001 .pdf.
Miam i-D ad e Co unty
Ped est ria n C ra s hes
1996-2000
Ped. Crash
~Mll u (I)
Miami-Dade High-
Pedest rian C ras h
Zones
29
3 0
P e d est rian behav-
i o r research ers
have foun d that
p edest rians will
often take the m ost
d irect rou te p os-
sib le i f o ther p aths
are not consid ered
more safe o r conve-
nient.
How to Develop a Pedestrian Safety Action Plan
System-wide crash data is needed to efficiently identify high crash corridors or areas,
in addition to high crash locations. To identify high crash corridors or areas, three
yea rs of crash data is ideal, but as little as one year of crash data may be sufficient.
Agencies should also review the types of information available in their computerized
crash database so they have ready access to information such as the age of the pedes-
trian, physical condition of the pedestrian or motorist, behaviors of the pedestrian
and motorist prior to the crash, direction of travel, and other details that can be used
in identifying safety problems.
Pedestrian Walking Tours
Madison, WI
The Pedestrian Transportation Plan for Madi -
son, Wisconsin includes a hypothetical walk-
ing tour to investigate situations pedestrians
are likely to encounter. It focuses on questions
such as 1) "Can I walk there?" that examines
sidewalk access, continuity and connectivity of
the pedestrian network, missing links, transit
access, construction projects which close off
sidewalk access;
2) "Is walking
convenient?"
that examines
land-use issues,
street patterns,
and crossings;
3) "Is walking
safe?" a ques -
tion examin -
ing curb ramps,
sidewalks, and
street crossings;
and 4) "Is walk-
ing enjoyable?"
examining buf-
fers between
motor vehicle traffic and pedestrians and
neighborhood character. Observing situations
that pedestrians encounter suggests cr iteria
that can be used to evaluate the pedestrian -
friendliness of an area and standards that
should be strived for in making Madison a
better place to walk.
For more information, visit
http://www.cityofmadison .com/transp/
PedTransPlanTableOfContents.html.
Smaller agencies can also use the
low tech method of identifying
high crash corridors and other
areas by developing manual pin
maps or spot maps.
It is important to note, especially
in relationship to crash data, that
ve r y little is known about pedes-
trian exposure. For instance, it
is difficult to compare the crash
records of two intersections
without understanding the respec-
tive pedestrian exposures. When
exposure data is not readily avail-
able (as it rarely is), many officials
turn to surveys, behavior studies,
and pedestrian counts to provide
an approximation of exposure.
In some case s, patterns of pe-
destrian crashes are not readily
identifiable using GIS and crash
data analys is alone. Because some
pedestrian crashes are rarely
repeatable, other types of data
should also be used to identify
where pedestrian safety improve-
ments are needed. Specifically:
Pedestrian Counts and Behavior
Studies
Ideally, collecting pedestrian
counts and observing crossing
behavior can be useful in under-
standing the pedestrian activity
and in considering needs for facili-
ties. Pedestrian crash data can be
used to identi fy high crash loca-
Chapter 3: Collecting Data to Identify Pedestrian Safety Problems
tions, corridors, areas, and jurisdictions; supplemental pedestrian volume and behav-
ioral data can be valuable at those sites to provide insights into specific crash causes
and potential countermeasures. Count and behavior studies are best employed when
there is a decision (design or operational) to be made that the information can influ-
ence (i .e., is a traffic signal warranted?). However, low pedestrian counts should not be
used as a justification to not take any action. If there is a clear indication that pedestri-
ans need access to a destination, but roadway conditions are so intimidating that few
people are seen walking, then a safety improvement can open up new opportunities
for pedestrians.
Count and behavior studies (that include observing the number, age, or behavior of
pedestrians) are typically needed to more fully assess pedestrian conditions and de-
termine what type of improvements are needed. Because collecting this data is labor-
intensive, many agencies do not collect system-wide pedestrian counts or behavior
data. If the data are collected, it is helpful to maintain the data in an easily retrievable
database. Due to budget constraints, it is acceptable to focus this data collection to
areas of higher pedestrian concern. See Appendix B for details on how to conduct
pedestrian counts and behavioral studies.
High pedestrian volumes do not necessarily result in high numbers of pedestrian
crashes. In many downtown areas, pedestrian crashes are relatively low despite the
high pedestrian and motor vehicle traffic volumes. This results from lower motor
vehicle traffic speeds, short blocks, and a greater motorist expectation and awareness
of pedestrians. Conversely, pedestrians can often be at greater risk in areas with low
pedestrian use due to lower motorist expectation and awareness of pedestrians. But
high pedestrian volumes can be used to justify a higher priority for pedestrian facility
or traffic control improvements.
Behavior 5 tudies within Crash Site Reviews
Reviewing pedestrian crash reports is another way to identify pedes trian safety de-
ficiencies, but some deficiencies are not readily apparent by reviewing collision or
condition diagrams or by simple field reviews or audits. Behavior studies of motorists
and pedestrians at the particular crash site are needed to determine other factors that
may be contributing to a pedestrian safety problem.
Assessing Pedestrian Behavior
After a pedestrian crash has occurred, safety officials often ask, ''What was the pe-
destrian doing there? Why did the pedestrian cross there? Why didn't he or she cross
at the traffic signal or use the crosswalk?" Pedestrians will act according to human
nature, most often taking the shortest or most convenient route between two points.
Traffic controls that regulate motor vehicle traffic often do not meet the needs of
pedestrians. "Thinking like a pedestrian" can help others to understand why a crash
occurred and how to prevent one in the future by looking at the circumstances from
the pedestrian's perspective.
31
3 2 How to Develop a Pedestrian Safety Action Plan
"Thinking like a pedestrian" is a process that analyzes factors such as the pedestrian
and roadway environment and other conditions as well as the perceptions of safety to
assess the pedestrian behavior. It also takes into account factors outside of the study
area that may modify or develop pedestrian behaviors (e.g., a lack of sidewalks causes
pedestrians to choose to walk in the roadway). It requires an evaluator to observe pe-
destrian movements at a site and then emulate those movements. This will give a true
sense of what the pedestrian experiences. This process may have limitations when a
pedestrian is intoxicated, under the influence of drugs, or is otherwise disoriented. See
Appendix C for a detailed, step-by-step guide for performing this assessment.
Assessing Motorist Behavior
The same "thinking like a pedestrian" process can be used for motor vehicle driv-
ers. Street designs and traffic controls have been created primarily to facilitate motor
vehicle traffic flow. Motorists respond by driving with the assumption that they will
be able to drive at a reasonable speed with minimal interruptions. Major interruptions
such as traffic signals at busy intersections are acceptable because the motorists un-
derstand the risk associated with the two conflicting traffic flows if controls were not
in place. However, a vulnerable pedestrian is often not seen as a risk and motorists are
often not willing to slow down or stop to let a pedestrian cross, especially when the
motor vehicle driver is frustrated or traveling at a high speed . The pedestrian is seen as
an interruption to smooth motor vehicle traffic flow. Also, a distracted motorist may
not even see a pedestrian in time to slow down.
"Thinking like a motorist" is a process that analyzes factors such as driving environ-
ment, facilities, other conditions, and perceptions of safety to assess motorist behav-
ior. It requires an evaluator to observe motorist behavior on site and then emulate
these movements. This gives the evaluator a true sense of what the motorist experi-
ences. The process has limitations in that the professional may assume the motorist
did what the roadway and traffic control devices expected of them. The process is
also limited when motorists are drunk, under the influence of drugs, fatigued, or dis-
tracted, such as talking on a cell phone without paying proper attention to the roadway
environment. See Appendix C for further details on performing this type of assess-
ment.
Roadwqy / Sidewalk Inventories
ot all pedestrian deficiencies can be identified by crash data. Since pedestrian crashes
at particular locations are relatively rare and random events in general, roadway infra-
structure can be used to identify locations needing pedestrian facility improvements.
While most pedestrians are not hit while walking along a road, the presence or absence
of a sidewalk often determines when and where a pedestrian will cross a street. It can
be difficult or expensive to create and maintain a database of roadway, sidewalk, and
traffic characteristics for an entire city, county, state, agency, or system. In working to
create such a database, an agency should begin by collecting data for arterial or major
streets, and then phase in data collection on collector streets. Data collection for local
streets may be limited to school walking routes or walkways near major pedestrian
Chapter 3: Collecting Data to Identify Pedestrian Safety Problems
destinations, such as parks, churches, community centers, senior centers, and medical
facilities.
Inventories should include the presence (one side or both sides) and quality of side-
walks (width, surface condition, separation from traffic, accessibility, etc.). Roadway
characteristics include street classification; posted speed limits; school zones; number
of lanes; width of lanes; the presence of medians, traffic signals, or marked cross-
walk s; curb ramps; pedestrian regulatory, warning, and wayfinding signs; streetlights;
and bike lanes. Inventories can also include other features such as school sites, major
school crossings, walking routes, or school-specific signs and marking. Since transit
stops are associated with high pedestrian activity, an inventory of transit stops is also
useful. Other facilities that generate high levels of foot-traffic include parks, libraries,
churches, community centers, and medical facilities. These inventories can help iden-
tify and prioritize where pedestrian improvements should be implemented.
Agencies can start building some of these inventories by reviewing up-to-date aerial
photographs, or they may already exist in other computerized databases. However,
sidewalk information generally cannot be accurately extracted from aerial photos; this
information needs to be collected manually or extracted from photo-logs or video-
logs. Sidewalk inventories can also be completed when pavement inventories are
conducted. All the data should be in a GIS database that can be displayed on a com-
puterized map or aerial photograph.
Trqffic Counts and Characteristics
These data include Average D aily Traffic (ADT), peak hour motor vehicle traffic and
the percentage of trucks in the traffic mix. Many agencies maintain motor vehicl e
traffi c count maps showing flows on all arterial and most col-
lector streets, and this information is generally updated every
three to five years. Also, some agencies post the motor vehicle
traffic volumes maps on their Web sites and are continuously
updating the ADTs when new counts are made. Speed limit
data files or maps are also maintained and updated by many
agencies. Ideally these databases should be geo-coded and
combined with roadway/ sidewalk inventories; they can be
used to help prioritize pedestrian improvements or to assess
a location, corridor, or area for safety improvements. Jurisdic-
tions can conduct pedestrian volume counts at intersections
at the same time as they perform vehicle turning movement
counts. These data are relevant to pedestrian safety as most
severe injury pedestrian crashes typically occur in areas with
high motor vehicle traffic speed s and on wide roadways
which often have high motor vehicle traffic volumes .
Other inventories that can be compiled to assist agencies
in keeping track of where pedestrian improvements are or
should be made include:
Pedestrian Surveys
State of Arizona
The Arizona Department of Transpor-
tation gathered information from the
public regarding walking and bicycling
through the use of a survey. The survey
solicited detailed information regarding
the existing walking conditions and is-
sues, the Plan, and potential improve-
ments to walking and bicycling facilities .
A summary of the comments received as
well as a copy of the survey instrument
are included in the 2003 Arizona Depart-
ment ofTransportation Statewide Bicycle
and Pedestrian Plan.
For more information, visit: http://www.
azb i ke ped .o rg/statew i de-bi eye I e-
pedestria n-intro.htm I.
33
34
•
•
•
•
•
Census Data Use
Cambridge, MA
How to Develop a Pedestrian Safety Action Plan
The City of Cambridge included 1990 Census data in its 2000 Pedestrian Plan to
reveal the role that walking plays in the City. The data show that of the city's 39,405
households, 11, 107 (or 28.2 percent) have no car. The plan also reports Census data
showing that 25.4 percent of Cambridge residents walk to work and 24.5 percent
take transit. In addition, of the 107,000 people who work in Cambridge, 13.3 percent
walk to work, and 21.3 percent take transit.
For more information, visit: http://www.cambridgema.gov/-CDD/et/ped/plan/
ped_plan.html.
Street light inventories-single vers us double sided lighting, spacing of li ghts, and
the size of li ghts Qevel of illumination).
Crosswalk inventories-location and type of crosswalk markings (es pecially help-
ful for maintenance activities).
Inventories of school locations, crosswalk locations, and school-related signs .
Inventories of pedestrian warning signs, and the last dates when the signs were
replaced (to ensure retro -reflective signs are in place).
Inventories of pedestrian generators such as parks, libraries, medical facilities,
senior citizen homes, etc.
Pedestrian S urvrys
Travel surveys can provide a measure of pedestrian travel, including origins and desti-
nations, trip purpose, and travel routes. This is especially helpful where an agency does
not have the resources to conduct pedestrian counts. Travel surveys are ge nerally done
on a sample of the population and are extrapolated to represent the entire commu-
nity. Travel surveys are generally conducted for all modes, including pedestrian travel.
It is important to remember that bus riders are also pedestrians when they walk to
and from transit stops on either end of their trip. Consider the language in which the
survey is written; some areas (e .g., international areas) may have predominately non-
English speaking populations.
Surveys also provide helpful information on the quality of the walking environment
and unmet pedestrian needs, fears, or other concerns. Safety-related problems can be
identified by these surveys as well as barriers to walking.
Surv eys can be conducted over the phone, in perso n, or via the internet. Each method
has advantages and disadvantages, and the surveys can be very labor intensive to
collect. The length of the survey is important: complex or long surveys may not be
returned. Short surveys will provide limited information but are more likel y to be
completed and returned.
Chapter 3: Collecting Data to Identify Pedestrian Safety Problems
Another form of pedestrian survey is a pre-addressed mail-back postcard that can
be made availab le at community centers, libraries, on buses, etc. for pedestrians who
face travel challenges along the sidewalk or at street crossings. They can be used to
report the need for sidewalk repair, curb ramps, more crossing time at a traffic signal,
etc. This service is ideal for getting feedback from pedestrians with disabilities. This
survey should have check boxes for the most common problems, and should ask for
the person's name and phone number for follow-up investigation . The public is the
"eyes and ears" for a public agency, and this type of input from the public should be
welcomed . Each complaint should be investigated, and the person who submitted the
card should be contacted when the repair is completed. Other forms of public input
are discussed in Chapter 2.
Other Data Sources to Use : Census and NHTS
Information obtained from the Census can be included in a plan to reveal the mode
split for transport to and from work and the rate of auto ownership by census tract.
The National Household Travel Survey (NHTS), a joint effort by the Bureau of
Transportation Statistics and the Federal Highway Administration, includes informa-
tion on both long-distance and local travel by the American public. The joint survey
gathers trip-related data such as mode of transportation, duration, distance, and
purpose of trip. Both sources also include demographic, geographic, and economic
data, which can be used for analysis purposes. Census data typicall y are too coarse to
identify problem areas, but can be a helpful tool for pedestrian safety advocacy.
Audits
An audit is another tool which can be used to assess the pedestrian needs of a com-
munity. Audits involve a review of all of the data for a location or travel corridor
analyzed by a multi-disciplinary team independent of the site or project being audited
that will include someone from the traffic and/ or public works departments, police,
and other agenci es that serves pedestrians such as Neighborhood Services, Planning,
Housing, or Development Services. A multi-disciplinary team will often allow a fresh
look at pedestrian and motor vehicle traffic conditions at a location or along a cor-
ridor. A more detailed discussion on needs assessments and how to develop counter-
measures appears in Chapter 4.
Pedestrian Level of Service
Many of the data collected in the aforementioned methods can be used in a Pedestri-
an Level of Service (PLOS) model which can determine areas where pedestrian levels
of service are insufficient. PLOS models can focus on intersection cro ssings or road
segments. A PLOS model describes in quantitative terms what the pedestrian experi-
ences qualitatively. It is quite different from the LOS measures found in the Highwqy
Capacity Manual, which essentially measures delay to the motorist or pedestrian caused
by other vehicles on the road or pedestrians on the sidewalk. Rather, newer PLOS
models developed and used take into account such measures as comfort and safety as
we ll as ease of mobility.
35
3 6
The sidewalk in the top photo has a LOS
"A" while the photo below has a LOS "F"
according to the Highwf9 Capaciry Manual
model that is based primarily on delay.
Clearly, for pedestrians, mobility is not the
only thing that determines the quality of the
walking experience. This example illustrates
the need for new PLOS models to take into
account other factors such as safety and
comfort. These factors can be measured
both quantitatively and qualitatively in vari-
ous types of PLOS models.
How to Deve lo p a Pedestrian Sa f et y Action Plan
While typical PLOS analyses are strictly quantita-
tive (number of lanes, conflicting volume, delay),
the perceived LOS for pedestrians may involve
more qualitative concerns. These qualitative vari-
ables-including the aesthetic quality of land use
along the roadside or the quality of the sidewalk
surface-may be collected separately in a "Walkabil-
ity Audit." Some qualitative factors can be measured
quantitatively such as separation of sidewalk from
traffic lanes, the amount of motor vehicle traffic,
and presence of pedestrian enhancements such as
shade trees and benches. Some PLOS models go
further and include elements of the environment
adjacent to the right-of-way, such as the presence,
type, setback, and orientation of buildings . PLOS
and walk.ability audits may also consider the dif-
ficulty of crossing the street, essentially a form of
gap analysis . The greatest obstacles to safe cross-
ings are a combination of high motor vehicle traffic
speed and volumes, numerous travel lanes, and
wide streets. While these measures of comfort or
perceived safety clearly affect pedestrian walking
decisions, they should be distinguished from the stan-
dardized LOS procedure to assure objective results.
A comprehensive PLOS measure captures the multi-
faceted complexity of pedestrian travel, from the ability
to walk comfortably down a street, with interesting
things to see along the way, to the ease and safety of
crossing the street. o standardized PLOS procedure
has yet been adopted. Several states, including Florida
and Oregon, are in the process of developing PLOS
models as one tool to be used to assess pedestrian con-
ditions. The relative weight to place on various factors
is being debated among practitioners. This process re-
quires substantial field investigation. The process involves listing all factors considered
important to the comfort, convenience, and safety of the pedestrian. Scores are given
to each factor, weighted as to their relative importance. Typical factors (both quantita-
tive and qualitative) include but are not limited to:
PLOS variables for intersections include:
• Presence or absence of marked crosswalks.
• Width and quality of the crosswalks.
• Volume and speed of conflicting motor vehicle traffic.
• Width of street/ number of travel lanes.
• Traffic control at crossings.
• Signal timing and displays.
Chapter 3: Collecting Data to Identify Pedestrian Safety Problems
• Curb radii .
• Existence of median is lands or safety islan d s at crossings.
PLOS variables for road segments include:
•
•
•
•
•
•
•
Presence or absence of si d ewalks .
W idth and quality of the sidewalks .
Separation of the sidewalk from m oving motor vehicl e traffic .
Presence of amenities su ch as benches and shade trees .
Volume and speed of adjac ent motor vehi cl e traffic .
Width of adjac ent street/ number of travel lanes .
A cc essibility of adjacent land uses .
Level of Service Model for Signalized Intersections for Pedestrians
State of Florida
The Florida Department of Transportation uses a level of service (LOS) model to represent pedestrians'
perceptions of crossings at signalized intersections. The model is more quantitative than others, consid-
ering geometric characteristics of intersections and adjacent streets. The model incorporates perceived
safety/comfort (i.e., perceived exposure and conflicts) and operations (i.e., delay and signalization) to pro-
vide a measure of the pedestrian's perspective on how well an intersection's geometric and operational
characteristics meet his or her needs. The general model for the Pedestrian LOS at intersections is highly
reliable, has a high correlation with the average observations (see chart below), and is transferable to the
vast majority of metropolitan areas in the United States. Studies of the model reveal that primary fac-
tors in the PLOS model for intersections include right-turn-on-red volumes for the street being crossed,
permissive left turns from the street parallel to the crosswalk, motor vehicle volume on the street being
crossed, midblock 85 percentile speed of the vehicles on the street being crossed, the number of lanes
being crossed, the pedestrian's delay, and the presence or absence of right-turn channelization islands
(Petritsch, 2005; FDOT, 2002).
For more information, see:
http://www.dot.state.fl.us/
safety/ped _bike/ped _bike_
standards.htm.
0 ....................... :
4 .5
II) 4 g
iii 0:: 3 .5
t:.
i::i s 3
CJ
~ a.. 2 .5
2
Ped LO S
A
B c
D
E
F
Model Score
S l.S
> I .5 and $2.5
> 2.5 and $3.5
> 3.5 and S4.5
> 4 .S and S S.5
>5
..
1 .5 ----........ -----..----.....---------
1.5 2 2.5 3 3 .5 4
Participant Adjusted LOS
Plot of predicted and observed signali zed intersecti on LOS for pedestrians
..................................................... 0
37
38
'' There will
alWC!JS be more
improvements
to be made than
can be accom-
modated Thus,
a prioritization
.rystem needs to
be developed to
rank the van·ous
competing
projects. ''
Chapter 4:
Analyzing
Information
and Prioritizing
Concerns
How to Develop a Pedestrian Safety Action Plan
Improving pedestrian safety in a community or region is typically the result of imple-
menting different safety treatments and changing agency design policies . Crash coun-
termeasures, or treatments intended to address pedestrian safety concerns, can take
several different forms: operational and construction projects intended to fix specific
problems; changes in design guidelines to help improve streets and intersections in
future projects; and education and enforcement programs aimed at achieving changes
in motorist and pedestrian behavior or attitude.
Projects involving pedestrian crash countermeasures can be furth er subdivided into:
1. Countermeasures for spot locations .
2. Countermeasures for corridors.
3. Countermeasures for targeted areas (including neighborhoods).
4. Countermeasures for general problems common to an entire jurisdiction.
This chapter presents methods to categorize concerns, identify locatio ns, and address
the issues of pedestrian safety through prioritizing improvements and utilizing other
implementation strategies. A detailed discussion of actual countermeasures is provided
in Chapter 5.
Categorizing Concerns for Pedestrian Safety
A systematic procedure is needed to identify what (a nd where) countermeasures
should be implemented to provide for a safer walking environment. There will always
be more improve ments to be made than can be accommodated. Thus, a prioritization
Chapter 4: Analyzing Information and Prioritizing Concerns
system needs to be developed to rank the various competing projects. Typically, the
severity of pedestrian crashes is so disproportionately high compared to other motor
vehicle crashes that the elimination of a few pedestrian crashes will result in a high
safety dividend and high benefit/ cost ratios.
Unlike vehicle crashes, crash rates for pedestrians are typically not us ed, since pedes-
trian volumes are usually not known. The crash to volume relationship for pedestrians
is different than for vehicles. A single pedestrian crash at a low volum e location will re-
sult in a high rate, while several crashes at a major downtown crossing may correspond
to a low rate. Additionally, it is uncommon for agencies to invest extensive manpower
to collect the system-wide pedestrian counts that are needed to develop rates; pedes-
trian crash rates would also need to account for motor vehicle volumes.
Instead, high pedestrian crash locations, corridors, and targeted areas should be
initially identified by comparing the total number of pedestrian crashes. System-wide
concerns for a jurisdiction can be inferred from the sum of all data.
Another method of identifying and prioritizing high crash locations is by using
weighted pedestrian crash data, giving more weight to severe or fatal pedestrian
crashes. When identifying and prioritizing high crash locations, three to five years of
computerized crash data should be used. For prioritizing corridors or other targeted
areas, one to three years of pedestrian data are acceptable.
The first step in determining the right countermeasure is to look at the problem and
determine whether the problem is a spot problem, a problem evident in a targeted
area or along a corridor, or a broader and more general problem that affects an entire
jurisdiction.
1. A spot location problem is unique to one location.
2. A corridor problem may be evident at several sequential intersections or along
the roadside of a corridor; to successfully reduce crashes, countermeasures need
to be applied throughout the corridor, not just at a single location; fixing one
location may leave other similar areas untreated.
3 . A targeted area problem may repeat itself in a neighborhood or other area where
conditions are similar throughout. Similar to the corridor problem, the nature of
the roadway is such that fixing a spot area may leave other potential areas un-
treated; the solutions are very likely to be the same all around the neighborhood.
A neighborhood or targeted area problem may be common throughout a local
area due to unique circumstances such as a large university, commercial or busi-
n ess district, or other neighborhood characteristic.
4. An entire jurisdiction problem is common to an entire city, coun ty, or state and
is usually caused by an undesirable practice such as failing to routinel y install
sidewalks or paved sho uld ers for pedestrians or failing to provide streetlights.
Once it has been determined that a problem is one of these types, the next step is to
determine whether the appropriate solution is an operational / construction, general
design, or an ed uc ation / enforcement countermeasure.
39
40 How t o Deve lop a Ped es t rian Sa f et y Act io n Plan
Identifying High Crash Locations, Corridors, Targeted Areas, and
Jurisdictions
Pedestrian safety problem locations, areas, and jurisdictions are most readily identified
using computerized crash information.
Above is an example of a spot location where closing
a driveway close to the intersection and constructing
a sidewalk reduce d the potential for pedestrian-motor
vehicle conflicts.
In this corridor, pedestrian level lights and planter
boxes have been added to buffer pedestrians from
vehicle traffic and provide safer and more secure
nighttime conditions.
Spot Locations
For spot locations, countermeasures are
most likely going to be operational/ construc-
tion changes, but they could occasionally be
changes to education/ enforcement programs.
Operational / construction countermeasures
incl u de anything from a change in crosswalk
striping or signal timing to construction
pro jects such as cur b extensions, realignment
of an intersection approach, or building a
pedestrian crossing island . Education/ en-
forcement solutio n s include spot enforce-
ment of drivers-yield-to-pedestrian laws or
education materials aimed at well-defined user
grou p. Three to five years of pedestrian crash
data are typically b en eficial in identifying and
prioritizing high crash locations.
Corridors
For p roblems that occur along corridors, an
assessment of the entire corridor is neces -
sary. For analysis p urp oses, study areas can be
subdivided into roadway segments of 0.8 km
to 8 km (0 .5 mi to 5 mi) in length . Crashes at
firs t may seem to occur in undefined, almost
random locations. A more thorough analysis
may reveal patterns such as crashes occurring
primarily at transi t stops or at night. What
see m ed like an in surmountable problem can
be tackled systematically and comprehensively
by focusing one or two countermeasures
throughout the corridor. For example, in the
case of a predomin ance of nighttime crashes,
improving illumin ation throughout the cor-
ridor may solve many problems. In the case of transit-related crashes, working with
the local transit provid er to assess all bus sto p s may lead to simple solutions such as
relo cating, adding, or eliminating some sto p s, and implementing countermeasures to
assis t pedestrians in crossing the street at a limited number of critical locations. Two
to three years of ped estrian crash d ata are typically suffi ci ent for corridors.
Chapter 4 : Analyzing Informat ion and Pr ioritizi ng Con cerns
Targ eted A reas
When identifying high crash targeted areas within the agency, geographic information
system (GIS) data are important. Small communities or jurisdictions may be able to
manually map pedestrian crashes, but this task is difficult and time-consuming for larg-
er cities with several hundred annual pedestrian crashes. It is important that statewide
compu terized crash data systems allow for
geographically mapping cras h es for analyses
purposes. One to three years of pedestrian
crash data are reasonable to identify area-wide
problems.
For targeted area problems occurring through -
out a neighborhood, a similar approach to
that outlined in corridor problems should be
taken . Are there patterns, similarities, or a pre-
dominance of one crash type? Neighborhood
problems may be more amen able to edu ca-
tion/ enforcement solution s, as the traffic that
goes though a given neigh b orh ood tends to
be made up of the same travelers nearly every
day. Engineering improvem en ts can include
area-wide traffic calming or the installation
of si d ewalks or streetlights. In some cases,
chan ges in local, regional, or state policy may
be necessary to all ow or promote these im-
provements.
Jurisdiction-wide Problems
For a problem that is common through o u t an
entire jurisdiction, agencies should ensure that
their policies, plan s, and engineering design
guidelines adequately embrace the ap p ropriate
countermeasures. P roblems in spot locations,
targeted areas, corridors, and jurisdictions can
Traffic calming techniques, such as chicanes, were
used in this targeted area to slow vehicle speeds on
neighborhood streets.
An example of a jurisdictional change is a city-wide
policy for the installation of ADA-compliant curb
ramps.
often reveal a fun d amental design flaw in the roadway; solu tions then include changes
in design guidelines. Chapter 5 provides a list of design solutions and countermeasures
that sh ould be incorporated into the agency's design manu als, practices, and proce-
dures so all future road projects are des igned with these safety features at the onset.
High Pedestrian Crash Potential
A lack of pedestrian crashes d oes not mean that conditions are safe or ideal for pedes-
trians . P ed estrians may avoid certain areas b ecause they perceive danger . Consequently,
low ped estrian cras h frequencies are not n ecessaril y indicative of a safe facility, but
may be a consequen ce of low or zero pedestrian activity. A p ed estrian safety analysis
should therefore go b eyond ju st looking at pedestrian crashes .
41
42
In this image, a
team p erforms a
road way safety
audit on a local
roadway.
Ho w to Deve lo p a Pedestrian Safet y Action Plan
Identifying Pedestrian Safety Concerns
State of California
Some states, such as California, may have output reports (SWITRS, TASAS) that can be
provided to assist jurisdictions in indentifying their injury and fatality statistics be -
yond just numbers (e.g., crashes and victim data by hour of day, day of week, month,
year, motorist data, vehicle data, victim gender, race, and age, extent of injury). In
California, this information can be provided by the California Highway Patrol (CHP)
or Caltrans. This information is easily obtained and analyzed to help further develop
crash countermeasures. Analyzing the data can be performed with simple EXCEL
spreadsheets or advanced packaged software, such as Crossroads or Intersection
Magic, depending on the agency resources. The Metropolitan Transportation Com-
mission (MTC) is working to develop an on line toolkit to help Bay Area jurisdictions
of all sizes to perform collision analyses using available data and to offer a variety
of countermeasures for consideration. The toolkit is available online at: http://www.
mtc.ca.gov/planning/bicyclespedestrians/index.htm.
Methods to identify pedestrian deficiencies at low-crash or no-crash locations involve
an analysis of the roadway, traffic, and other agency databases. By looking at the defi-
ciencies that occur at high crash locations, an agency should be able to identify other
locations with similar deficiencies. Safety improvements that are successful at one
location should be implemented at all similar locations. This requires an inventory of
spot locations, corridors, or areas to allow an agency to identify those places that have
similar characteristics as the high pedestrian crash sites. Field reviews and public input
through surveys or workshops can
help identify these locations.
Analyzing High Crash Locations,
Corridors, or Areas
Field Revie2vs
Once high crash locations, corri-
dors, or areas have been identified,
individual crash reports, complete
with the police narratives and other
detailed information, should be
used when conducting field reviews.
The detailed crash information and
field reviews can be used to identify
how each pedestrian crash occurred, and what may be done to prevent future similar
crashes. The outcome is a list of improvements that can be implemented to address
those crashes and enhance safety. For crashes involving severe and fatal injuries,
police investigations are available for in-depth and detailed reviews of how the crash
occurred and may provide information on what may have prevented it. These typi-
cally include witness statements as well as more detailed investigations of motorist and
_.;
Chapter 4: Analyzi ng Informatio n and Prioritizing Concerns
pedestrian behavior and site conditions at the time of the crash. See Chapter 3 for a
more detailed discussion of crash site reviews.
&adwqy 5 efery Audits and Reviews
Roadway Safety Audit Reviews (RSARs) involve the use of a multi-disciplinary team
approach to review and evaluate a location, corridor, or area after it is built or before it
is open to the public. Audit review team participants should include a variety of trans-
portation professionals such as a traffic engineering expert, a human factors expert,
a police representative, or a Planning-Neighborhood Services specialist. This team is
provided all of the crash history and other data for the crash location or study area
such as pedestrian and motor vehicle traffic counts. In order to have the best chance
of observing the pedestrian safety problems, the team should visit the site when
conditions best simulate the problems. For instance, if crashes are happening at night,
the team should visit the site at night. The multi-disciplinary team members visit the
location or corridor together with each member making their own observations of ve-
hicle, traffic and environmental conditions. The observations and suggested solutions
are summarized in a report once the team has a chance to compare notes . Pedestrian
safety improvements implemented at one location can be implemented at other similar
locations, even where no pedestrian crashes have occurred. Roadway Safety Audits
(RSAs) are similar to RSARs except they are conducted before the system is built.
Pedestrian crashes may continue to occur at locations or along corridors or targeted
areas where safety improvements have been implemented. This phen omenon may
occur because more pedestrians are willing to cross at locations with one or more
engineering enhancements, thereby increasing exposure. This may also be an indica-
tion that engineering solutions alone will not result in totally safe con ditions. A proper
before-and-after evaluation of any treatment is essential to determine how effective it
has been.
The occurrence of a seemingly illogical pedestrian crash after the implementation of a
safety measure has sometimes been attributed to a pedestrian's lack of understanding
of the roadway environment. It can equally be attributable to the motorist's lack of
understanding of the roadway environment. In many cases, therefore, education and
enforcement programs may be necessary to achieve a true safety benefit. There are
few engineering projects that can prevent motorists or pedestrians from choosing to
travel intoxicated or that can stop motorists from willfully breaking the law. Education
and enforcement programs addressing pedestrian safety problems sh ould also be care-
fully implemented and evaluated (see Chapter 5 for more details).
Roadway Safety Audits
FHWA's Pedestrian Road Safety Audit Guidelines and Prompt Lists can be used to
assess the safety of pedestrian facilities . The guidelines and prompt lists will help fa-
miliarize RSA teams with potential pedestrian issues and help them identify specific
safety concerns related to pedestrian safety throughout the RSA process. For more
information, visit http ://www.walkinginfo.org/library/details .cfm?id=3955.
43
44 How to Devel o p a Pedestrian Safety Action Plan
Crash Typing
A crash type describes the pre -crash actions of the parties involved. When crashes
in a database are "crash typed;' a pattern often emerges that helps safety officials
identify what the problem is and what countermeasures are generally related to
each crash type. The following six crash types are some of the most common pe -
destrian crash experiences:
1. Dart/Dash
The pedestrian walked o r ran into the roadway
at an intersection or midblock location and was
struck by a vehicle. The motorist's view of the pe --,
destrian may have been blocked until an instant
before the impact.
2. Multiple Threat/Trapped
The pedestrian entered the roadway in front of
stopped or slowed traffic and was struck by a
multiple-threat vehicle in an adjacent lane after
becoming trapped in the middle of the roadway.
3. Through Vehicle at Unsignalized Location
The pedestrian was struck at an unsignalized in -
tersection or midblock location . Either the mo-
torist or the pedestrian may have failed to yield.
4. Turning Vehicle
The pedestrian was attempting to cross at an in-
tersection, driveway, or alley and was struck by a
vehicle that was turning right or left.
5. Through Vehicle at Signalized Location
The pedestrian was struck at a signalized inter-
section or midblock location by a vehicle that
w as traveling straight ahead.
6. Walking Along Roadway
The pedestrian was walking or running along the
roadway and was struck from the front or from _
behind by a vehicle.
•
Other crash types i nclude Working/Playing in roadway, Backing Vehicle, Bus -relat-
ed, Crossing an Expressway, and Unique Midblock. For more details on the crash
types and related countermeasures, see Chapter 3 of the "PEDSAFE : Pedestrian
Safety Guide and Countermeasure Selection System " or find the "Crash Analysis "
section in the on -l ine version at http://www.walki nginfo.org/pedsafe.
Chapter 4: Anal yzing Inform at ion and Pr io ritizing Concerns
Selecting the Appropriate Solutions
Once crash locations have been identified based on data analysis, crash patterns
should be determined by narrowing in on specific crash types occurring at individual
locations. If a pattern is observed, then it will be easier to select the solution that best
applies to the crash type experienced. The Pedestrian and Bicycle Crash Analysis Tool
(PBCAT) is a tool designed to assist transportation professionals in determining crash
types based on data collected (see below). PEDSAFE : Pedestrian Scifety Guide and Cou n-
termeasure S election System (Harkey, 2004) is another resource for comparing crash types
to appropriate countermeasures. It describes crash types and provides pedestrian crash
statistics and includes descriptions of 49 different countermeasures or treatments that
may be implemented to improve pedestrian safety and mobility. Also included are 71
case studies that illustrate the concepts applied in practice in a number of U.S. com-
munities. Details about PEDSAFE are contained in Appendix F.
Determining the Extent of Implementation
Once pedestrian safety solutions have been selected, the final decision is usually based
on a combination of factors: is the project to be implemented in phases or all at once;
is the project to be permanent or temporary; what are the cost constraints?
FHWA's PBCAT Crash Typing Tool
45
To vie JV PE D SAFE
online, go to http ://
JV IVW. JValk inginfo.
org/ pe dsafe. To obtain
a ha rd copy of PE D -
SAFE, please vieJV the
folloJVing link : http ://
safetyjhJVa. do t.gov/
ped_bike/ p ed_bike_
order.htm
The development of effective countermeasures
to help prevent pedestrian crashes is often en-
hanced through the use of detailed computer-
ized state crash files. Analysis of these data can
provide information on where pedestrian crash -
es occur (city, street, intersection, two-lane road,
etc.), when they occur (time of day, day of week,
etc.), and characteristics of the people involved
(age, gender, injury severity, etc.).
North Carolina Bicycle & Pedestrian Crashes
FHWA's Pedestrian and Bicycle Crash Analysis
Tool (PBCAT) is a crash -typing software product
intended to assist state and local transportation
professionals in improving pedestrian safety
through the development and analysis of a data -
base containing details associated with crashes
between motor vehicles and pedestrians or bi -
lnformatJOn for atmost 23 JD) recent bteycle and
pedestn an crashes wfl h motor vehicles trl Nort h
Carolina has bee n comp iled to crea te an interactive
database . Ust our online dat abne lo leam about
these NC polct re port ed bicycle and pede S1nan
crashes. Yo u ca n view 11andard !ab les or cre at e you r
own uu1g our online query tool. Search the ent ire
state or JUSI your own county Of cd:y Select btcyc le or
ped eS1ti an data be low to begin
cyclists . One of these details is the crash type, which describes the pre-crash ac -
tions of the parties involved . With the database developed, the software can then
be used to produce reports and select countermeasures to address the problems
identified. For further details about crash typing, see page 44.
For more information, visit: http://www.walkinginfo.org/pc/pbcat.htm.
The NCDOT Divi-
sio n of Bicycle and
Pedestrian Trans-
portation employs
P BCAT on its Web
site.
4 6 How to Develop a Pedestrian Safety Action Plan
Phasing projects
Phasing projects is most applicable to corridor or neighborhood/targeted problem ar-
eas. A desirable countermeasure may be very costly or politically challenging to imple-
ment all at once. Phasing allows certain elements to be implemented right away, as
others wait further funding. There are several ways projects can be phased: geographi-
cally, by urgency, by opportunity, or b y type of treatment.
Geographically-starting at one end of a corridor and completing it in units. For
example , an 8 km (5 mi) corridor where a sidewalk is planned can be built in five 1.6
km (1 mi) sections over five years. This is a practical method, but may not address the
most urgent needs first. Conversely, safety projects may be disbursed equally in differ-
ent regions of a state or city so that all areas can share an improved safety for pedestri-
ans and no areas feel slighted .
By urgency-treating the areas with the highest crash numbers or highest pedestrian
activity first. This may seem logical and politically acceptabl e, but in reality there may
be constraints that make the most needed areas the hardest to address. Reasons may
include lack of right-of-way or topographical constraints.
By opportunity-if a certain type of treatment is needed up and down a corridor and
it can be piggy-backed onto other planned projects in that corridor (s uch as mainte-
nance or resurfacing projects), then it makes sense to implement these countermea-
sures along with the planned work.
By type of treatment-scheduling countermeasures by type of work. For example illu-
mination may come first, as an agreement with the utility company makes it easy to do
so right away. A more controversial countermeasure such as a traffic circle may have
to wait until the political or design issues have been settled . Assuming both treatments
will independently contribute to pedestrian safety, proceeding with one treatment
while waiting for the other is acceptable.
Duration of Improv ement
Projects can be further subdivided into temporary and permanent categories.
In most cases, a permanent solution should be sought. It will cost the most, but will
last for the duration of the roadway. A good estimate for the life of a permanent
treatment such as a sidewalk is 20 yea rs or more, but in reality they typically last much
longer. In some cases, a temporary so lution is more appropriate. This is the obvious
choice where it is known a road is to be rebuilt soon, but the pedestrian safety needs
must be addressed right away. There are other reasons to consider a temporary instal-
lation: if the solution is new and untested in the community or if the design cannot
be finalized based on local conditions. A temp orary installation can b e u sed to gauge
public acceptance and can be modified when user observations demonstrate correc-
tions that may be helpful.
Chapter 4: Analyzing Informati on and Prioritizing Concerns
There are a variety of materials and designs that can be used for temporary sol ution s:
•
•
•
•
Paint is the cheapest and can give an immediate impression of how the per-
manent solution will look and affect traffic operations; if simple lines are not
enough to redirect traffic, hashing out areas with zebra stripes is often more
effective at keeping cars out of certain areas; paint is very short term and should
not be left in place for more than a few months, as it will wear out; nor should
the experiment be considered a failure if motorists cross over the painted area, as
there is really no physical barrier preventing them from doing so.
Plastic posts or barrels provide more positive guidance and may la st longer than
paint.
Plastic curbs offer a greater opportunity to create a picture of the proposed per-
manent soluti on, such as curb extensions or raised median islands.
Concrete curbs can also be laid on the pavement; the se are usually referred to as
"wheel stops," such as those found in parking lots. They are almo st never used
in the travel portion of the roadway but can be used as a substitute for a curb
to protect a walkway. Wheel stops should be firmly anchored and supplemented
with other measures. One potential disadvantage of wheel sto ps is that they may
cause pedestrians to trip.
Temporary solution s should then be evaluated for their effectiveness. The techniques
range from a full traffic study to observation and receiving public input. To war-
rant the time and expense of a traffic study, the temporary installation should clos ely
resemble the final solution and therefore be made to look substantial-evaluating the
effect of paint will not predict how a raised curb would perform.
Temporary Project Solutions
Bend, OR
The intersection in these photos was reconfig-
ured in stages: first a curb was installed to redi -
rect traffic at a right angle and the striping had to
be redone to reflect the new geometry. Motor-
ists and pedestrians were aware of the modified
geometry and engineers were able to monitor its
effect on traffic operations. In the second stage,
the curbed area was filled with landscaping, of-
fering a more permanent solution . This two-step
process enabled the city to implement a change
immediately and at a low cost . The more perma-
nent landscaped solution had to be contracted
out, a more time-consuming process. Temporary
projects and strategically-phased solutions allow
for fast implementation, leaving the agency time
to consider more permanent alternatives .
47
48 How to Develop a Pedestrian Safety Action Plan
Conversely, a temporary installation has its pitfalls, since plastic cones, posts, curbs,
or orange barrels are usually not aesthetically pleasing, and may generate negative
reactions just because it "looks cheap" or "ugly." This can be mitigated by showing
adjacent property owners an artist rendering of the completed project or photos of a
similar treatment implemented elsewhere.
A temporary installation helps to identify unintended negative consequences. If the
traffic study or public input indicates a problem, steps can be taken to redesign the
countermeasure to avoid these consequences.
However, temporary installations may generate one major unintended consequence:
total removal of the countermeasure because of negative public reactions. Complaints
from a small but vocal minority may cause elected officials to bow to this pressure.
The complaints often stern from the fact that some people simply do not like change,
or the countermeasure affects their trip, requires them to drive more prudently, or
creates a slightly longer distance. Opposition may also be generated from a lack of
prior knowledge about the change or test. Garnering public support and buy-in from
a citizen committee or stakeholders and effectively working and communicating with
the community prior to implementing countermeasures will go a long way in blunting
opposition before it is generated (see Chapter 2).
Bowing to pressure, removing the temporary installation, and then not installing the
permanent countermeasure can have dire consequences for the intended beneficiaries:
pedestrians. Many countermeasures such as curb extensions can be built right the first
time with a great degree of confidence they will work as intended. Some users may
complain, but rarely will an agency remove a permanent and fairl y expensive feature if
it is working as intended.
Safety evaluation results of temporary solutions should be shared with the public
(area residents and / or business people, elected officials etc.). It should be made clear
that the results may not be the same as the permanent solution, for the reasons cited
above.
Prioritizing Pedestrian Improvements
Initial Factors to Consider
After all the steps outlined to this point have been implemented (stakeholder involve-
ment, data collection and analyses, review of problem areas), the list of needed im-
provements may appear overwhelming at first . Pedestrian safety countermeasures can
be prioritized taking into account the following factors:
Availability of Right-of-Way (ROW)
Most pedestrian safety countermeasures will not require additional ROW, as they usu-
ally involve road narrowing, striping, illumination, etc. Occasionally, additional ROW
(or at least an easement) will be required, to create a sidewalk buffer for example.
ROW n egotiations can be lengthy, and it is best to start the process as soon as it is
Chapter 4: Analyz ing Information and Prioritizing Concerns 4 9
determined the improvement is needed
so the project is not unduly held up. A
conceptual design should be enough to
determine how much ROW will be need-
ed, to help speed things along. Easements
can often be obtained much quicker and
at a much lower cost.
Federal and/or State Mandates
Certain countermeasures can be piggy-
backed to projects scheduled to fulfill
Federal or state requirements. A DA and
curb ramp requirements are one example:
if a safety countermeasure requires
changing a corner radius, and the cor-
ner is slated for an ADA upgrade (ramp
installation), the two projects can be
combined for efficiency. Some Federal or
state requirements are safety-related, such
as upgrading deficient bridge guardrails;
these projects should also include pedes -
trian safety measures.
Public Support
The data collection methods outlined
in Chapter 3 will often make the most
problematic areas rise to the surface.
Yet there are some crashes that strike an
emotional chord in the public, like when
a child is hit while walking to school. This
will create tremendous public support
for a countermeasure that addresses this
issue. The responsible age ncy should
pursue a solution to this problem while
not losing sight of the goal of making
improvements where most crashes occur.
Similarly, the solution should be one that
improves pedestrian safety and is not a
response that may make conditions less
safe for motorists and pedestrians. How-
ever, responding positively to an emo-
tionally-charged situation is an opportu-
nity for the agency to pursue funding for
other needed pedestrian crash counter-
measures as we ll as gain acceptance of a
fairly progressive countermeasure.
Prioritization of Crosswalk
Improvements
Seattle, WA
Over 600 crosswalk locat ions were surveyed and di -
vided into "compliant;"'possibly compliant;' and "non-
com pliant" using recommendations from a FHWA
safety study (Zegeer et al., 2005). The possibly compli-
ant and non -compliant locations were then mapped
as shown below. It was immediately clear that most of
the locations were along 12 corridors . This, combined
with crash data , provided a list of prioritized corridors
for making improvements. The crosswalk inventory al-
lowed analysts to identify crosswalks with safety con-
cerns and determine feasible safety measures for the
prioritized list (Hefferan, 2004).
0 ....................... :
Legend : yellow dots indicate possibly
compliant locations and red dots indicate O · · · · · · · · · · :
non -compliant ones.
50
Project Prioritization System
Phoenix, AZ and Denver, CO
How to Develop a Pedestrian Safety Action Plan
Phoenix, AZ has a sidewalk retrofit and street modernization program to build missing pieces of sidewalks
and other street infrastructure improvements in developed neighborhoods. Projects are ranked based on
various factors including the street classification (collector streets are given a higher priority than a local
street) and the proximity to a pedestrian generator (school, church, park, or medical facility). Projects are
assigned points in several such categories and are ranked in each of the eight Council Districts so that all
parts of the City receive some safety and infrastructure improvements rather than all of the funding being
directed to one area.
The Denver, CO pedestrian plan prioritized potential improvements using several different criteria. This
criteria included a proximity analysis-an analysis of the presence of sidewalks and the proximity of facili-
ties that are likely to generate pedestrian activity, including light rail transit stations, schools, parks and
parkways, libraries, and neighborhood destinations. In addition, socio-economic data, existing sidewalk
conditions, auto-pedestrian crash history, and pedestrian route proximity were used in the prioritization
of projects. A project scored zero, one, or two points in each criteria or category; the maximum points a
project could score was ten while zero was the lowest a project could score. This system of scoring proj-
ects based upon points they earn for each criteria allowed the Advisory Team to objectively determine the
level of importance for each project and therefore the priority for project implementation and completion.
See the image below for a geographical representation of the pedestrian potential model developed.
For more information, visit: http://phoenix.gov/streets/index.html or http://www.denvergov.org/trans-
portation_planning/.
PEDESTRIAN MASTER PLAN
Pedestrian Potential Model
-0 .2 -2-·
-•·S
-e -e
O ccrBoundMY
5 FKtorl Conlidefed
"lhe Mode-I
'-""'""
.......
••
12118.'0J 0
Chapter 4: Analyzing Information and Prioritizing Concerns
Travel D emand
Though pedestrian crashes do not always correlate to pedestrian use (pedestrians often
get hit in areas where fewer people walk), countermeasures in an area where there are
many pedestrians will be easier to justify.
Cost of Improvements
This is always an important factor in all decision-making: should an agency try to
spread available funding to many low-cost countermeasures, or target funds for a few
high-profile projects? Some of the most expensive countermeasures are not neces-
sarily the most effective. The best examples are pedestrian bridges and underpasses:
they can cost millions of dollars but get little use because of inconvenience or security
concerns. Several new pedestrian signals can be installed for the cost of one tunnel or
bridge. Conversely, inexpensive measures, such as improved striping, can be quickly
implemented over an entire corridor or neighborhood for comparatively little cost.
Funding
Some funding so u rces ~an only be used for limited applications. Man y common funds
can b e used only for construction, o nly for education, or only for e nforcement. This
is not necessarily a limitation, as a typical safety program will involve all three compo-
nents. If a funding source b ecomes available, but has limitations, this should not be
an impediment to implementation-every funding opportunity sho uld be seized as it
becomes availa bl e (see Chapter 6 for more about funding).
Safety Benefits
Decision-makers want to ensure the maximum cost-effectiveness, so the most effec-
tive countermeasures that offer the greatest safety benefits should be considered first.
Some pedestrian safety countermeasure will have benefits for other road users, and
some may have negative consequences for others. These issues need to be weighed
again st all other considerations. This highlights the need to develop a ranking system
to prioritize projects.
Developing a Ranking System to Prioritize
Projects
Transportation agencies often develop a ranking system for making improvements
such as surface preservation, modernization, or safety. P edestrian sa fety countermea-
sures are no different. The idea is to assign scoring to the various criteria, weighting
each one according to the values of the community, availa ble funding, political climate
etc. Other scorin g factors can be added, and each one needs to be weighted so it rep-
resents an agreed-upon value.
51
52 How to Devel op a Pedestrian Safety Action Plan
Pedestrian Needs Index
The primary input to a Pedestrian Needs Index (also called a Pedestrian Potential
Index or Deficiencie s Index) is pedestrian crash data. In addition to crash data, in-
ventorie s of missing sidewalks, lighting, and other pedestrian facilities can be u se d to
identify where upgrades are needed. Lists can be prioritized using pedestrian count
data or proximity to schools or other pedestrian gen-
erators. Projects should be reassessed and reprioritized
Category Possible
annually, and funding should be assigned so that all
regions within a state or an agency receive some le vel of
pedestrian facility enhancements and all of the improve-
ments are not concentrated in one area. Each agency
should create its own Pedestrian Deficiency Index based
on the resources available, and develop a point system
to compare and assess various projects. Pedestrian crash
history can be an input to this ranking system.
Points
Se ve rity of problem (how 15
many crashes have occurred or
are likely to occur)
Effectiveness of solution 15
Probable use (travel demand) 15
Likelihood of funding 10
Feasibility ( constructability: 15
piggy-backing, available ROW,
etc.)
Public support 15
Cost 15
Bonus : achieves other goals possible 10
(motorist /bicyclis t safety, points
aesthetics)
Total 100
Above i s an e xample of a ranking sys-
te m used to e s tablish pede stri an project
priorities.
Any ranking system can be subject to personal bias if
multiple observers or analys ts contribute. A standard-
ized form or checkli st can enhance objectivity of the
results . GIS methods can be used to automate the
ranking process for large areas from a database. A scor-
ing system where the total possible points add up to
100 makes it easier for the public to appreciate how a
proposal fares; it also makes it easier to tweak individu-
all y weighted category scoring. Sample categories, with
sample weightings, could be similar to the ones in the
table at left.
The first attempt at a scoring and weighting system is
rarely perfect. A Pedestrian Advisory Board (PAB ) as
described in Chapter 2 can help develo p the ranking sys-
tem. It should then be field-tested on real-world prob-
lem areas so that the results appear rational and those
projects that are obviously needed score highly. A potential downside is that a problem
the public has identified as a major crisis may score low if it fails in several important
categories. A scoring system created and backed by a PAB that represents the public's
interests can help deflect criticism. It can also help ensure that projects that solve a
real but ignored problem get the attention they deserve. However, if a scoring system
is created and the high-scoring projects are not implemented, it may create a liability
problem for the agency.
Legislative/Public Oversight
As stated in Chapter 2 on stakeholders, prioritizing pedestrian safety projects transpar-
ently and based on good data and public input can help an agency make decisions that
lead to the best projects being selected within their given funding limitations. It also
Chapter 4: Anal yzing Information and Prioritizing Concerns
enables the age ncy to pursue its charter with assurance that it is accomplishing the
goals it was set out to achieve: reduce pedestrian crash risks.
Legis lative /public oversight helps establish goals, secure funding, etc. But much of
what is known by professionals in the field of pedestrian safety may not be fully un-
derstood by the general public. The agency should operate in a climate of open com-
munication and explain to the public, elected officials, and the media what it is doing
as well as how and why. This will help ensure that the agency is allowed to pursue its
mission and implement the best solutions to the most urgent problems without con-
stant questioning or review. An effective solution that is installed quickly can demon-
strate the agency's overall effectiveness in dealing with pedestrian safety problems and
will facilitate future successes.
53
Ch ap te r 2 describes
how to p roceed with this
information in a manner
that en sures maximum
effectiveness. Jurisdictions
that have been given
the re sp onsibility of
oversight to a Pedestrian
Adviso ry Boa rd (PA B)
shou ld tru st the PA B
to carry out its mission
with minimal interfe r-
ence.
54
'' Measures to
improve pedestri-
an safery should
not be limited to
engineering treat-
ments; education
and enforce-
ment are also
important for
pedestrians. ''
How to Deve lop a Pedestrian Safety Action Plan
Chapter 5:
Selecting
Safety
Solutions
Jurisdictions should ensure that all of their policies, plans, and engineering design
guidelines include considerations for pedestrian safety. The design solutions men-
tioned in the first part of this chapter should not be viewed only as fixes to spot
problems; they should be incorporated into the agency's design manuals, practices, and
procedures so all future road projects are designed with appropriate access and safety
features.
This chapter explores the most commonly used and effective pedestrian crash coun-
termeasures. Each is briefly described with available information concerning its effec-
tiveness. A few other design considerations are also explained. Appendix H comple-
ments this chapter, providing a checklist of things to consider when implementing
crash countermeasures. The chapter is organized into the following topics:
• Design Specifications and Guidelines.
• Engineering Solutions.
• Enforcement and Education Solutions.
• Policy and Planning Solutions.
• Countermeasures to be Used with Caution.
• Consequences of Countermeasures for Other Road Users.
Design Specifications and Guidelines
There are numerous policy, planning, and design guidelines that transportation plan-
ners and engineers can use; however, only a few address pedestrian designs thoroughly.
AASHTO has re cently published the Guide for the Planning, D esign, and Operation of
Pedestrian Facilities. An example of a state pedestrian design guide is Washington DOT's
Pedestrian Facilities Guidebook; one city / regional example is the Planning and D esigningfor
Pedestrians: Model Guidelines for the San Diego Region. Additionally, FHWA has an excel-
lent publication: PEDSAFE: Pedestnan Scife!J Guide and Countermeasure Selection System
(FHWA-SA-04-003). The Manual on Uniform Traffic Control D evices (MUTCD) should be
used for selecting appropriate traffic controls: signs, traffic signals, marked crosswalks,
Chapter 5: Selecting Safety Solutions
and other pavement markings. See Appendix F for more infor-
mation on these and other available references.
Many of the above-mentioned pedestrian policy, planning, and
design guidelines-along with those in Appendix F-were used
to develop the following list of some of the more effective
countermeasures in terms of improving pedestrian safety. They
should also be used by jurisdictions for guidance to fix spot
problems and to update and improve agency design manuals,
practices, and procedures.
Engineering Solutions
The countermeasures presented here are organized according to
the type of pedestrian crash.
Walking Along the Ro ad Crashes
Rural environments:
1. Paved shoulders-Paved shoulders provide room for
pedestrians to walk separate from motor vehicle traffic
in rural areas when providing sidewalks is not a feasible
option. Paved shoulders also provide room for bicyclists.
Paved shoulders have many safety and operational ad-
vantages for motor vehicle traffic as well. To be effective,
paved shoulders should be 1.8 m (6 ft) wide or more;
1.2 m (4 ft) is considered the minimum acceptable width
to accommodate pedestrians (AA SHTO Green book,
2001). Rural environments near large urban areas or those
experiencing rapid growth should be considered subur-
ban, where sidewalks are the preferred pedestrian accom-
modation.Newly-developed communities should provide
sidewalks and other pedestrian facilities.
Urban and Suburban Environments:
1. Sidewalks-Sidewalks can eliminate most walking-along-
the-road pedestrian crashes by providing positive separa-
tion from motor vehicle traffic. Continuous and connected
sidewalks are needed along both sides of streets to prevent
unnecessary street crossings. Sidewalks generally should
not be placed immediately adjacent to moving motor
vehicle traffic. Whenever possible, they should be buff-
ered with a planter strip, parking lane, shoulder, or bike
lane. This will increase pedestrian safety and comfort and
can make it easier to meet the ADA requirement for a
level passage through driveways and the requirement for a
55
Paved shoulders offer pedestrians on rural
roadways a safer place to walk.
Sidewalks provide safe spaces for pedes-
trians to walk.
56
Driveways should be designed so that the
sidewalk continues through the driveway
in a relatively flat and level alignment.
Pedestrian-level light fixtures increase
pedestrian visibility at night and provide
a better sense of security.
2.
3.
4.
How to Develop a Pedestrian Safety Action Plan
clear passage around utility poles, po sts, fire hydrants, etc.
(these can be placed in a landscaped buffer zone). Planter
strips should be 1.5 m (5 ft) wide or greater; 1.8 m (6 ft)
is a desirable minimum. Separated sidewalks should also
be 1.5 m (5 ft) wide or greater; 1.8 m (6 ft) is a desirable
minimum along arterial streets in non-commercial areas.
Along arterials where there is no buffer, curbside sidewalks
should be 3.0 m (10 ft) wide or greater. Sidewalks should
provide a continuous effective width to preve nt choke
points from being created by street furniture. In downtown
areas, considerations must be made for outdoor seating
for restaurants. Rolled (mountable) curbs are not recom-
mended. Continuous and connected sidewalks are needed
along both sides of streets to prevent unnecessary street
crossings.
Driveways-Well -defined driveways clearly mark the area
where motorists will be crossing the pedestrian's path.
on-defined ve hicle access points with continuous access
to parking create a long conflict area between pedestrians
and motorists. This added area of ambiguity complicates
the motorist's task of watching for pedestrians.
Driveway design and spacing-driveways should be
designed to look like driveways, not street intersections
(s idewalks should continue through the driveway). Local
policies should prohibit blocking the sidewalk at driveways
and these policies should be enforced. Driveways should
be kept as narrow as possible. The le vel of the sidewalk
should be maintained, and the driveway should be sloped
so that the motorist goes up and over the sidewalk. This
will help with a number of goals: meeting ADA accessibil-
ity requirements will be easier, the fact that the pedestrian
has the right-of-way will be clear, and motorists will need
to slow down slightly to enter the driveway, which will help
promote pedestrian safety. Driveways should be located
away from intersections. The number of driveways should
be minimized (consolidate whenever possible) to reduce
the number of conflict points for pedestrians. This access
manage ment is also a safety advantage for motorists.
Illumination-Pedestrian crashes di sproportionately oc-
cur at times of poor lighting (mostly dusk and nighttime).
Illumination greatly increases the motorist's ability to see
pedestrians walking along the road. Double-sided lighting
should be provided along wide arterial streets to illuminate
both sidewalks for the security and safety of the pedestri-
an. Light uniformity along a road is also important. Lights
Chapter 5: Sel ec t i ng Safety Solutions
should be spaced to minimize or eliminate dark areas along
the road and sidewalks. For midblock and intersection
crossings, it may be helpful to provide extra lighting to
crossings with high nighttime pedestrian use.
Crossing the Road Crashes
Midblo ck crashes :
1. P ed estrian crossing is land-On two-way streets, a median
is land at uncontrolled lo cations can help reduce crashes
by up to 40 percent. The benefits are greatest on busy
multilane streets where gaps are few and difficult to fin d .
A pedestrian crossing is land breaks an otherwise difficult
crossing maneuver into two easier steps: instead of need-
ing to find a gap long en ough to cross all lanes at ones, a
pedestrian looks left, finds an acceptable gap in one direc-
tion only, crosses to the island, then looks right and finds a
second gap.
In-Street Pedestrian Crossing Signs
State of Pennsylvania; State of New York; and Portland, OR
Pedestrian c rossing i sl a nds p rovid e a
refu ge w h e n crossing wid er road s .
In 2001, the State of Pennsylvania began providing municipalities with in -street pedes-
trian crossing signs . The in-street crossing signs are incorporated in the MUTCD in Sec -
tion 28.12 . To date, more than 2,000 signs have been installed. The signs cost about $200
each and are distributed to municipalities through the DOT regional offices. The signs
are to be placed at unsignalized crossings on roadways with a speed limit of 56 km/h (35
mi/h) or less. The signs are typically set 1.5 to 3.0 m (5 to 10 ft) in advance of the crosswalk
(attached to the pavement) but can be placed as far as 15 .2 m (SO ft) from the crosswalk.
A number of Pennsylvania municipalities have used the signs
as a visible part of larger pedestrian safety programs, involv-
ing education, enforcement, and design components.
A study has been conducted evaluating the effects of pedes -
trian safety cones placed in streets in upstate New York, Long
Island, and Portland , OR (Huang , 2000). The in -street pedes -
trian crossing cones , like the in-street pedestrian crossing
signs, serve the same purpose: to display a consistent and ac-
curate message, i.e., the relevant law for yielding to pedestri -
ans. The study findings confirm that pedestrian safety cones
can improve conditions for pedestr ians who benefit from
motorists' yielding to them. Findings suggests that motorists
were more likely to yield to pedestrians after the signs had
been placed on the roadway.
For more information, visit: http://www.dot.state.pa.us or http://www.tfhrc.gov/safety/
ped bike/pu bs/00-098.pdf.
57
58 How to Develop a Pedestrian Safety Action Plan
Two-stage crosswalks with fencing help
direct pedestrians to look for vehicles
corning from the right.
Curb extensions can increase the visibil-
ity of pedestrians and motorists.
Advance stop lines can help prevent mul-
tiple threat pedestrian crashes.
2 . Two-stage crosswalk with median fencing-Some agen-
cies provide railings / fencing in the medians of multilane
roads that channel pedestrians to the right, increasing the
likelihood that the y will look for vehicles coming from
their right in the second half of the crossing. It should be
mentioned, however, that these types of crossings can be
problematic for pedestrians who are blind and for wheel-
chair users.
3. Curb extensions-On streets with on-street parking, curb
extensions reduce the total crossing distance. Reducing the
crossing distance helps pedestrians in two ways: it reduces
the time they are exposed to moving traffic, and it makes it
easier for pedestrians to assess and find an acceptable gap,
as the time needed to cross is shorter. They also increase
visibility: the waiting pedestrian can better see approaching
motor vehicle traffic and motorists can better see pedes-
trians waiting to cross the road; their view is no longer
blocked b y parked cars. Curb extensions should be de-
signed to accommodate storm water drainage and should
never extend more than 1.8 m (6 ft).
4. Illuminatio n-See discussion on page 56 concerning
illumination.
5. Crosswalks at uncontrolled locations with advance stop bar
(or yield line)-On multilane streets a common and often
fatal crash type is the "multiple-threat" crash, in which a
motorist in one lane stops to let a pedestrian cross, but so
close to the crosswalk as to mask a motorist in the adjacent
lane who is not slowing down. The second motorist does
not have time to react and the pedestrian is struck at a high
speed . The advance stop bar or yield line .(accompanied
with a R1 -5 or R1-51 a YIELD HERE TO PEDESTRI-
ANS sign) requires all motorists to stop back (30 to 50 ft
is desirable); when the first motorist stops at the stop bar,
it allows the pedestrian to see if a motorist in the second
lane is stopping. This enables the pedestrian to wait or step
back if he or she has started to proceed into the second
lane. While the advance stop bar with appropriate signing
has the potential to reduce the probability of a multiple-
threat crash, this is no guarantee that 1) all motorists will
stop for pedestrians and 2) all stopping vehicles will neces-
sarily stop at the stop line, potentially on high-speed roads.
Therefore, it is important to carefully select locations for
unsignalized crossings, even if the advance stop bar and
signing is used. Also, such sites should be monitored to
ensure that pedestrians are able to cross safely and if not,
Chapter 5: Selecting Safety Solutions
Advance Stop/Yield Markings
Halifax, Nova Scotia, Canada
Crosswalks on streets with multilane, uncontrolled ap-
proaches are often associated with a type of pedestrian
crash termed a multiple threat crash. A major factor con -
tributing to this kind of crash is the fact that the yielding
vehicle stops (or slows) too close to the crosswalk, screen-
ing the pedestrian from the view of another motorist fast
approaching in the lane that the pedestrian is to cross next.
One treatment that addresses the issue of multiple-threat
crashes is the use of yield markings placed 9.1 to 15.2 m (30
to 50 ft) in advance of the crosswalks along with a "YIELD
HERE TO PEDESTRIANS" sign placed adjacent to the mark-
ings (the sign is incorporated in MUTCD in Section 28.11 ).
Data show that this treatment can produce a marked re-
duction in multiple threat conflicts (Van Houten, 1988; Van
Houten, 1992).
In a study conducted in Halifax, Nova
Scotia, Canada, 24 crosswalks were
randomly assigned to a treatment or
control condition. Following a base-
line measurement period, twelve of
the streets had advance yield mark-
ings and the "YIELD HERE TO PEDES-
TRIAN" sign installed 7.0 m (23 ft)
to 19.8 m (65 ft) in advance of the
crosswalk. The remaining half of the
crosswalks remained in the baseline
condition and served as control sites.
Each of the streets used in the study
included multiple travel lanes in both
directions or multiple lanes on a one-
0············:
• H;?•
TO
PEDESIRIANS
O············:
way street with a posted speed limit of 48 km/h (30 mi/h) (Van Houten, 2001 ).
The sign and markings increased the percentage of motorists yielding to pedestrians and
decreased the percentage of motor vehicle/pedestrian conflicts at all 12 sites. For the
control crosswalks, motorist-yielding behavior remained almost unchanged between
the before-and after-treatment measurements. However, the percentage of motorists
who yielded to pedestrians at crosswalks with the added sign and markings increased
from around 70 to 75 percent to around 80 to 85 percent. Further, vehicle-pedestrian
conflicts remained nearly constant for the control sites but declined from about 10 to 15
conflicts per 100 crossings to under 5 conflicts per 100 crossings at the treatment sites.
Follow-up data collected six months after the markings and signs were introduced show
no reduction in treatment effectiveness. These data are in accord with previous findings,
which show that effects are maintained over time.
For more information, visit: http://www.walkinginfo.org/pedsafe.
59
60
Traffic signals with pedestrian signals
create a gap for pedestrians to cross inter-
sections.
Wide radii (top) allow faster turning
speeds and create unsafe pedestrian en-
vironments. A simpl e extension (bottom)
can reduce the turning radius and vehicle
turning speed as well as provide a safer
crossing place for pedestrians.
How to Develop a Pedestrian Safety Action Plan
then other treatments (e.g., traffic signals) should be con-
sidered.
6. Traffic signal with pedestrian signal displays-On busy
multilane highways with significant volumes, a signal may
be the only way to create a gap for pedestrians to cross. It
is often difficult to meet the MUTCD warrants for a traffic
signal based solely on existing pedestrian counts; it is often
necessary to anticipate how many pedestrians might cross
there once the signal is installed. All signals have associated
operational and safety concerns that must be addressed,
including the distance to adjacent signals.
Nighttime Pedestrian Crashes:
Many nighttime crashes can be prevented through better light-
ing. See previous discussion on illumination (page 56).
Intersection Straight-Through Crashes:
Most of the techniques described under midblock crashes are
applicable at intersections for straight-through crashes: pedes-
trian crossing islands, curb extensions, illumination, and advance
stop bars or yield lines.
Intersection Right Turn Crashes (Signalized or Unsignalized):
1.
2.
Tighter radius-Tightening the intersection radius has
many benefits for pedestrians: it shortens the crossing
distance, brings the crosswalk closer to the intersection,
increases visibility of the pedestrian or the approaching
motor vehicle, slows right-turning vehicles, and it makes it
much easier to install two ADA compliant curb ramps at
each corner. The choice of a curb radius is dependent on
the design vehicle and whether the street is a local resi-
dential street, a neighborhood collector, or a major arte-
rial. This requires the designer to calculate the appropriate
radius for each corner of an intersection and to accept
occasional difficult turns for the rare event-for example a
large moving truck turning onto a local street; this occurs
seldom enough that there's little reason to provide large
radii for truck turns onto local streets. The presence of on-
street parking on both intersecting streets can also result in
the opportunity to tighten the curb radius.
Curb extensions-See previous discussion on curb exten-
sions on page 58.
Chapter 5: Selecting Safety So lutions
3. Pork-chop islands-While right-turn slip lanes (also called
channelized right-turn lanes) are often considered negative
facilities for pedestrians (especially vision-impaired pedes-
trians) due to the emphasis on easy and fast motor vehicle
travel, they can be designed to be less problematic. Where
an exclusive right-turn lane is provided, a pork-chop island
between the right-turn lane and the through lanes can
shorten the crossing, resulting in less pedestrian exposure
and improved signal timing. The island also enables pedes-
trians and motorists to negotiate one conflict separately
from the others. A properly designed pork-chop island has
the longer tail pointing upstream to the approaching right-
turn motorist; this channelization brings the approaching
motorist at close to a 90° angle, so the motorist is looking
forward at the crosswalk; the crosswalk is placed one car
length back from the intersection proper (the AASHTO
Green Book now includes this better option). This enables
the motorist to move forward once the pedestrian conflict
has been resolved so the right-turning motorist can focus
on traffic. The pedestrian then can cross to a shorter street
crossing.
Intersection Left-Turn Crashes:
1. Median islands-A median island helps channelize left-
turning vehicles, slowing their speeds in the process. An
island also gives pedestrians a refuge for long crossings or
if a conflict cannot be avoided. However, signal phasing
should ideally be designed to allow the pedestrian to cross
the entire street during a single cycle.
2. Curb ramp placement and design-Poor ramp placement
and design can make a street crossing more difficult and
may lead to crashes. For example, poorly placed or ori-
ented ramps force wheelchair users to make long detours
and they may not cross in the allotted time at a signalized
intersection; or they may force wheelchair users to cross
outside the crosswalk lines at a location where motorists
do not expect them. Proper ramp placement and design
ensures that all users cross in crosswalks, close to the inter-
section, where motorists can see them, and without undue
delay. Ramps must be wholly contained within the marked
crosswalk area. Usually, this can only be accomplished if
the curb radius is 7.6 m (25 ft) or less. Single ramps that
direct the pedestrian into the middle of the intersection
should be avoided (especially on arterial streets) but may
be necessary where a large radius precludes the use of two
ramps. Ramps must be designed to meet ADA Guidelines,
61
Well-designed pork-chop islands can help
pedestrians navigate an intersection more
safely.
Median islands provide a safe waiting
place for pedestrians crossing multilane
roads.
Well-designed curb ramps provide pedes-
trians with disabilities better access to the
sidewalk system.
62
Crosswalks and pedestrian signals en-
courage ped estrians to cross at signalized
intersections.
How to Deve lop a Pedestrian Safety Action Plan
and two ramps at a corner are generally preferred over
single-ramp corners. ADA Guidelines can be found online
at http://www.access-board.gov / adaag/html/ adaag.htm.
Signalized Intersection Crashes:
All signalized intersections sho uld have the following (unless no
pedestrians are expected):
•
•
•
Pedestrian signals are needed (pedestrian WALK/DON'T
WALK signals) to ensure that a pedestrian knows when
the signal phasing allows them to cross and when they
should not be crossing. On one-way streets (or streets with
unusual configuration) a pedestrian approaching from the
opposite direction may not realize an intersection is signal-
ized and cannot see the ve hicle signal heads nor know
when it is safe to cross if there is no pedestrian signal. The
same is true for intersections with left turn arrows. Wide
streets require more information on when to cross and
when not to start crossing due to the long pedestrian clear-
ance intervals that may exist.
Marked crosswalks clearly indicate to the motorist where
to expect pedestrians and help keep the crossing area clear
of vehicles. It should be standard practice to mark all four
legs of a signalized intersection unless unusual circum-
stances exist.
A WALK signal (walking person symbol) should be long
enough to get pedestrians started and a clearance interval
(flashing upraised hand or DON'T WALK signal) long
enough to ensure that a pedestrian can fully cross the
entire street. While many agencies have traditionally used
a 1.2 m /s (4 ft/s) assumed walking speed, slower walking
speeds of 1.1 m/s (3 .5 ft /s) or even 0.9 m /s (3 ft /s) may
be appropriate at locations which have a substantial num-
ber of older pedestrians. The H ighwqy Capacity Manual spe-
cifically recommends a slower walking speed when the per-
centage of walkers over the age of 65 represent 20 percent
or more of the pedestrian population using that crossing
(National Research Council, 2000). Another option is to
consider the use of automatic pedestrian detectors, which
can detect slower-moving pedestrians in a crosswalk and
automatically extend the pedestrian clearance interval until
the pedestrian is safely on the other side of the street (see
link to recent research on automatic pedestrian detec-
tors at the Pedestrian and Bicycle Information Center
Web site : http:/ /www.walkinginfo.org / rd/ technology.
Ch apter 5: Select in g Safety Solu t ions
•
htm#peddetect). New detection methods such as video are
being tested but some may still be expensive to implement.
Push buttons, placed where a pedestrian who is in a wheel-
chair or is visually impaired can easily reach them, are of-
ten needed. They should be located so as to clearly indicate
which crosswalk each button regulates for crossings in two
different directions. The best practice is to provide push
buttons mounted on two separate pedestals separated by
at least 3 m (10 ft). Illuminated push buttons (that light up
when activated) are used to notify the pedestrian that the
actuated signal is working and/ or connected. They increase
the likelihood that pedestrians will actuate the push but-
ton and comply with the pedestrian signal. Push buttons
are not used in downtown/ central business districts and
other area of high pedestrian use where pedestrians can
be expected at every signal cycle. The pedestrian phase
should be on recall at these locations. Push buttons should
63
not be needed at fixed-time traffic signals where pedestrian Push buttons such as this one should be
crossings are reasonably expected on more than an oc-p laced where they can be easily accessed
casional basis, and the crossing (WALK) interval should wh en waiting to cross an intersection.
occur every signal cycle. The MUTCD Part 4 should be
u sed to design signals to the latest accessibility standards
(ADA); it is available online at http://mutcd.fhwa.dot.
gov /pdfs/2003 /Ch4 .pdf.
Many crashes occur while the pedestrian is crossing with the
WALK signal, and some signal-timing techniques can help
reduce the incidence of these crashes. Additional countermea-
sures at signalized locations may include:
1. Protected left-turn phases-This allows left-turning ve-
hicles to have their own separate interval, which can also
separate vehicle left-turning movement from pedestrian
crossing intervals. Thus, pedestrians can cross without
interference from left-turning motorists. Red and green
left turn arrows are used to make it clear to motorists they
must wait before turning left.
2. All-red phase-A short (i.e., 2 second) all-red interval may
help prevent a crash resulting from a high-speed red-light
runner hitting a pedestrian who has begun crossing with
the WALK signal or who may have a slower walking speed
and did not clear the crosswalk.
3. Lead Pedestrian interval GLPI)-The LPI can help re-
duce conflicts between turning vehicles and pedestrians
6 4 How to Develop a Pedestr ia n Safety Acti o n Plan
when turning vehicles encroach onto the crosswalk before
pedestrians leave the curb. The LPI releases pedestrians
(WALK phase) 3 to 5 seconds prior to the green light for
vehicles . This enables pedestrians to enter and occupy the
crosswalk before turning motorists enter it. This treatment
is particularly effective where there is a double right or left
turn movement.
C ountdown signals help pedestrians
know how much time they have left to
cross an int ersection.
4. Pedestrian countdown signal-This tells the pedestrian
how much time is left in the pedestrian clearance interval
(flashing DON'T WALK or upraised hand). This informa-
tion encourages pedestrians to leave the crossing before
the crossing time runs out and reduces the number of
pedestrians who initiate a crossing too late in the cycle or
who are still in the street at the end of the crossing inter-
val . The countdown signal should begin during the pedes-
Lead Pedestrian Intervals (LPls)
St. Petersburg, FL
A lead pedestrian interval was created for study at three signalized intersections in downtown St. Peters -
burg, Florida where pedestrian crossings occurred at the average rate of 60 per hour. An LPI is intended
to decrease crashes that involve motor vehicles and pedestrians by separating them in time. The LPI per-
mits pedestrians to gain a head start before turning vehicles are released. Following the introduction of
the LPI, conflicts were virtually eliminated for pedestrians departing during the start of the WALK interval.
There were 44 total pretreatment observation periods at all three
sites. During each of these sessions, the sites averaged between 2
and 3 conflicts per 100 pedestrians, with some periods having up to
5 conflicts per 100 pedestrians. After the LPI was installed, 34 of the
41 sessions had no conflicts, and no session had more than 2 con-
flicts per 100 pedestrians. This effect was noted for senior citizens
and non-seniors alike. There was also a smaller reduction in conflicts
during the remainder of the WALK interval. This reduction was likely
the result of pedestrians claiming the right-of-way during the earlier
portion of the WALK interval. The percentage of pedestrians yielding
to veh icles also declined following the introduction of the LPI , and
data showed that pedestrians tended to cross more lanes during the
3 second LPI the longer the intervention was in effect. This was likely
the result of regular users discerning the presence of the LPI and
modifying their behavior to util ize it to the fullest extent possible.
Over a period of four months at these three sites, no reduction in intersection effectiveness for motor vehi-
cles was detected. Moreover, local authorities opted to retain the LPI in places where the range of permitted
turning movements governed by the signal cycles allows safe use of the LPI. This intervention was shown to
increase pedestrian safety and i mprove pedestrian comfort and perceived safety levels as well.
For more information, visit http://www.walkinginfo.org/pedsafe and read Case Study No. 65 and 66 (follow
links to case studies in Florida and click on the two links to LPI studies).
Chapter 5: Selecting Safety Solutions
5.
6.
trian clearance interval (flashing DON'T WALK) phase.
The standards for pedestrian countdown signals can be
found in Section 4E.07 of the MUTCD.
All-pedestrian phase (als o known as Barnes dance or
scramble phase)-By stopping all vehicle movements and
allowing pedestrians to cross in all directions (including
diagonally), virtually all conflicts are eliminated. But pe-
destrians are not allowed to cross during the regular motor
vehicle phase, so motorists can turn without needing to
yield to pedestrians. This introduces a third signal phase
that generall y increases delay for motorists and pedestri-
ans . This signal phasing technique has been removed from
many intersections as both pedestrians and motorists do
not typically tolerate the extra delay, and such phasing may
only be appropriate for a few central city crossing loca-
tions with very high pedestrian traffic, relatively low vehicle
volumes, and a high number of turning conflicts. Also,
where intersecting streets are narrow and cycle lengths are
short, such timing schemes may be more practical, since
increased delay will be less of a problem. The all-pedestri-
an phase may also be better when applied at intersections
where all street approaches have a similar cross-section and
traffic flow.
Prohibited right-turn-on-red at selected locations-Con-
sideration should be made to prohibit right-turn-on-red
(RTOR) at intersections where there are high volumes of
pede strians, particularly near schools, and/ or where older
p edestrians cross regularly. Placing NO TURN 0 RED
signs may also be appropriate at complex intersections
(e .g., skewed intersections, intersections with more than
four legs), and also where pedestrians are having trouble
cros sing on a WALK signal due to a high volume of right-
turning motorists. It should be noted that at locations
where RTOR is prohibited, right-turn-on-green collisions
or conflicts with pedestrians may still occur.
Pedestrian Crashes on Road Sections:
1. Road diets-Reducing travel speeds and reducing the num-
ber of travel lanes a pedestrian has to cross are beneficial
in all cases. One well-documented technique that accom-
pli shes both goals is a "road diet" that takes a four-lane
undivide d street (two lanes in each direction) and recon-
figures the lane s to two travel lanes, a center turn lane,
and two bike lanes. The benefits for pedestrians include a
shorter effective crossing, fewer lanes to cross, and slightly
65
An all-pedestrian phase may be appropri-
ate at certain intersections where there
is a large volume of pedestrians crossing
the street regularly.
Prohibiting certain turning movements
may protect pedestrians in the crossing.
A road diet, such as the one above, may
decrease motor vehicle travel speed s and
reduce the number of lanes a pedestrian
must cross.
66
Traffic calming devices such as this
raised crosswalk help illuminate pedes-
trian crossings and slow motor vehicle
traffic.
The decision for where to place bus
stops, especially midblock bus stops, can
impact pedestrian safety and can influ-
ence pedestrian travel and accessibility.
They should always be located near a safe
crossing location.
Transit stops need sidewalks with ad-
equate width to accommodate waiting
pedestrians.
2.
How to Develop a Pedestrian Safety Action Plan
slower motor vehicle traffic speeds. The addition of a
center-turn lane also creates space for pedestrian crossing
islands. All this is accomplished without having to change
the curb lines. The bike lanes add a buffer for pedestrians
as well as a place for bicyclists to ride. The ke y to a suc-
cessful road diet is to ensure that all signals are set up to
handle expected volumes of left-turn movements and to
monitor adjacent streets to ensure that they are not overly
impacted by higher speed or higher volume motor vehicle
traffic.
There are many variations on this road diet, for example
reducing a multilane one-way street by one lane. A more
expensive road diet can involve moving the curbs to actu-
all y narrow the roadway surface. A simpler road diet can
involve narrowing the travel lanes to 10 or 11 ft to slow
motor vehicle traffic speeds and create space for bike lanes
that acts as a buffer for pedestrians.
Traffic calming-Within neighborhoods, traffic calming
measures can be used to slow motor vehicle traffic, such
as speed tables, speed humps, traffic circles, chokers, and
chicanes, or to break up long stretches of straight streets.
For more information on traffic calming devices and tech-
niques, visit http:/ /www.trafficcalming.com, http:/ /www.
walkable.org, or refer to PEDSAFE (Harkey, 2004) or
other relative documents listed in the References section or
in Appendix F.
Transit-Related Crashes
A high number of pedestrian crashes are related to transit.
Most involve a pedestrian crossing the street to get to a bus or
after getting off the bus. All of the street-crossing techniques
described so far are applicable to transit stops. All transit stops
must be accessible to all pedestrians, and policies should include
the following provisions:
•
•
•
All stops should consider the safety of the pedestrian
crossing. This does not necessarily mean a marked cross -
walk at each stop location; rather, each stop should be
placed where it is possible for a pedestrian to cross safely
at or very near the stop.
Transit (and school bus) stops must provide a safe place
to stand and wait, even if there are no sidewalks. The lack
of a defined waiting area is undesirable, especially for
children.
Sidewalks (or paved shoulders in rural areas) should be
Chapter 5: Selec t ing Safety Sol utions
•
•
built to provide pedestrian access to all transit stops.
Lighting should be provided at or near all bus stop loca-
tions for security and safety reasons and to minimize
vandalism.
The transit agenc y should review all its stop locations to
facilitate access and crossing.
Techniques include:
a.
b.
c.
d.
Improve the pedestrian crossing (this may involve
installing a new signal).
Consolidate closely-spaced stops b y eliminating some
stops (this not only limits the number of crossings,
but helps with transit efficiency as the buses stop less
often).
Place crosswalks (where warranted) behind the bus
stop at midblock locations. This allows pedestrians
to cross behind the bus, where they can see oncom-
ing traffic; it also enables the bus driver to pull away
without endangering pedestrians.
Move stops to a location where it is easier to cross.
This often involves decisions regarding nearside
and farside locations at intersections. In general,
farside locations are preferred for pedestrian safety,
as pedestrians are encouraged to cross behind the
bus, and the bus can leave without having to wait for
pedestrians to cross. It also allows for right-turn-on-
red movements on the nearside of the intersection.
However, there are locations where a nearside stop
may be more practical for operational and accessibil-
ity reasons.
Education Solutions
Overview
Education plays an important role in the process to improve
pedestrian safety. Education efforts can improve the ability of
drivers and pedestrians to use and respond to the roadway envi-
ronment safely and correctly. Education can complement enforce-
ment programs to teach motorists and pedestrians about safe driv-
ing and crossing practices, as well as the laws that govern them.
Numerous research studies have supported the notion that
education efforts can succeed in changing pedestrian and driver
behaviors and reducing pedestrian crash risks and rates . Some
of the successful earlier programs aimed at the conditions of
those times include:
67
Transit stops should be well-designed
with pedestrian needs in mind, including
shelter, signs, lighting, sidewalks con-
necting to the pedestrian travel network,
and bus loading areas that are wheelchair
accessible .
68
0
0 ~
How to Develop a Pede strian Safety Act ion Plan
Education Efforts Across the Nation
Countywide Example
WalkSafe Miami is a program aimed at reducing the incidence of children struck by vehicles by
educating elementary school-aged children, teachers, parents, and their communities about
traffic safety. The program uses educational training, engineering modifications, and enforce -
ment to help achieve its goal. The Miami -Dade Metropolitan Planning Organization (MPO)
produced six different pedestrian education posters aimed at increasing pedestrian safety
practices. The posters ' safety messages were in English, Spanish, and Creole. They covered
pedestrian-related topics ranging from interpreting pedestrian signals and being visible, to
watching for turning ca rs and making eye contact with an oncoming motorist before crossing
the street. The first of the posters were mounted in the county's 600 buses and most of the
135 MetroRail train cars free as a county public service beginning in July 2003 .
Statewide Example
One method for implementing educational programs to counter pedestrian crashes is to insti-
tutionalize pedestrian safety curricula in schools. US studies have shown that elementary school
children (age 5-9) are more likely to be involved in a pedestrian crash than any other age group.
This is particularly true i n urban areas where there is heavy traffic and few pedestrian ameni -
ties. Maryland has a comprehensive, hands-on safety curriculum based on a building block ap -
proach; it contains a series of lessons teaching pedestrian safety skills to younger grades (e .g.
K-2) and bicycling skills to older students (e.g., grades 3-5). There is an Administrator's Guide,
Teacher 's Guide, and Lesson Handbook for the program, developed by the City of Rockville.
From initial roll-out in the fall of 2002 to the end of the 2003-04 school year, the program has
reached over 7,000 Rockville students at 10 different elementary schools . The Maryland Pe -
destrian and Bicycle Safety Education Program has been made available to public and private
schools , law enforcement agencies, and community organizations throughout Maryland . For
more information, visit the Maryland Pedestrian and Bicycle Safety Education Program Web
site at http://www.rockvillemd .gov/recreation/bicycling/education-program.htm.
Nationwide Example
The FHWA Pedestrian Safety Campaign is "designed to help communities conduct their
own multi-media public education and information campaign:'The online document
provides a step-by-step discussion of how to conduct a pedestrian safety marketing
campaign. Starting with goals and strategies for a campaign, the guide elaborates on
forming coalitions with other agencies and advocacy groups, provides hints on inter-
acting with the media , and presents methods of campaign evaluation . The document
further contains large amounts of actual campaign material and sample letters to aid
agencies in the process of planning a public marketing campaign . For more informa -
tion, visit: http://safety.fhwa.dot.gov/local _program/pedcampaign/index.htm.
Chapte r 5: Selec t i n g Safety Sol utions
•
•
The "Willy Whistle" pedestrian safety public information
and education messages were used to teach child pedestrians
ages 5 to 9 how to look before crossing the street and safely
conduct a midblock crossing. An evaluation found that
the education campaign resulted in significantly reducing
the number of dart-out pedestrian crashes involving 3-to
7-year-old children by approximately 30 percent in the
three test cities of Los Angeles, CA; Columbus, OH; and
Milwaukee, WI (Blomberg et al., 1983). Part of this reduction
may be attributed to PSAs that alerted parents to increase
direct supervision of yo ung children when outdoors, rather
than changing the behavior of the yo ung children. Subse-
quent research has found that educational videos alone can
increase knowledge but usually result in little behavior change.
An evaluation of the efficacy of the film, ''And Keep on
Looking," targeting children in 4th through 7th grades,
showed an increase in safe street-crossing knowledge for
children ages 9 to 12 in Seattle, WA. An assessment in
Milwaukee, WI indicated a pedestrian crash reduction of
greater than 20 percent for children aged 9 to 12 compared
with children in areas surrounding Milwaukee and in com-
parison cities (Preusser and Lund, 1988).
Recent studies have included education as part of a more com-
prehensive safety program and have shown similar successes:
•
•
A 2007 study for NHTSA evaluated a pedestrian safety
program consisting mostly of education and enforce-
ment measures in Miami-Dade County. Countywide
pedestrian crashes were reduced by 8 to 12 percent. The
child pedestrian education program, "Walk Safe Miami,"
was implemented in elementary schools throughout the
county. There was a 22 percent reduction in child pedes-
trian crashes countywide in the first year after full program
implementation. (See case study write-up on page 109).
Walk Smart Baltimore, a comprehensive safety project was
conducted in Baltimore, MD, aimed at reducing the pedes-
trian crash problem related to alcohol. Countermeasures
were targeted to two "zones" in the city that accounted
for 73 percent of the pedestrian alcohol-related crashes
but only 21 percent of the land area. The countermea-
sures included a police training video, press kits for the
local media, radio and TV PSAs, brochures, posters, and
flyers. Using a surrogate measure of alcohol involvement
in crashes, the project team found an overall 16 percent
decrease in pedestrian crashes. The surrogate meas ure
crashes decreased 22.3 percent in the zones where the
majority of countermeasures were focused.
69
Oth er evaluations of pedestrian education
programs can be found in the Onlin e Library at
www.walkinginfo.org.
70
Left-turning vehicle failing to yield to
pedestrians at an intersection.
Pedestrians failing to obey a traffic signal.
How to Develop a Pedestrian Safety Act ion Plan
Education is an important and effective part of a pedestrian
safety program, but having streets designed for pedestrians is a
prerequisite. Most education campaigns will have limited
long-term success if the streets are designed for high-
speed traffic and do not safely accommodate all users.
While many education programs have shown positive results in
improving pedestrian safety, others have failed to demonstrate
significant improvements. This is likely because not all educa-
tion efforts have all the necessary components for success or
are not tailored to meet the needs of the community. To ensure
the most effective and successful education programs, an agenc y
should:
•
•
•
•
Understand the local context and apply messages to the
appropriate audience.
Combine and coordinate the education program with
other planning, engin eering, and enforcement measures.
Use both concentrated short and long-term efforts .
When appropriate, supplement informational programs
(i.e., programs using PSAs or other passive education
techniques) with opportunities to put learning into practice
(i.e ., skills training or active education).
Defin ing Education-Related Problems and Goals
Education programs and campaigns work best when there is
a clear understanding of the audience, the objective, and the
messages to be conveyed. Such programs produce the greatest
safety benefits when they are part of a long-term program and
not just designed to achieve short-term changes. The education
program should target a real and specific community problem.
In some cases, behavior-related problems are a symptom of
other concerns, such as poor street design or lack of enforce-
ment; in these cases, education should be coupled with addi-
tional measures to treat all of the underlying factors related to
the concern. Example s of common pedestrian-related problems
that can be addressed (in-part) through education include:
• Pedestrians at an intersection don't appear to understand
the newly-installed pedestrian signals and/ or don't choose
to activate them. The novelty of the signal requires some
additional information on its meaning and use.
• Pedestrians do not think they have enough time to cros s at
a traffic signal .
• Drivers don't yield to pedestrians in crosswalks.
• Parents don't understand the need to supervise children
under the age of 10 when they are walking.
Chapter 5: Selecting Safety So lutions
•
•
•
•
•
Children ages 10 to 18 don't know where or how to safely
cross a street to get to school.
Motorists are speeding in neighborhoods .
Commuters in the downtown area aren't taking advantage
of non-motorized modes of travel.
Pedestrian crashes are occurring in an area with a concen-
tration of bars due to pedestrian drinking and walking.
Designers and engineers aren't using pedestrian-friendly
design practices.
Thoug~ there are many studies showing that education can have
an impact, it is equally relevant to consider local conditions and
factors to develop an education program tailored to the com-
munity. The goals of an education program should be specific,
measurable, and related to the problems identified. For instance,
if an intersection safety study reveals that only 20 percent of
pedestrians are activating the push-button (assuming the but-
ton is properly designed and located and works correctly) for
a crossing signal, an education campaign can be developed to
focus on increasing pedestrians' understanding of the existence
and benefits of the crossing features. The goal should be to in-
crease activation of the push-button and safe crossing behavior.
Establishing baseline conditions helps in setting realistic goals
and evaluating program effectiveness.
Targeting Sp ecific Audiences
There are major differences in the knowledge of safe pedestrian
practices, walking abilities, behavioral patterns, and learning
capacities of different groups of pedestrians and other road us-
ers. Because of this, education programs need to be tailored to
the specific audiences and types of safety problems they intend
to address, and to the behaviors they seek to modify. Common
audiences for focused, pedestrian-related education programs
include:
1. Road users, including:
2.
3.
a. Child pedestrians (several different age groups)
b. High school and college age pedestrians
c. Adults
d. Older pedestrians (65+)
e. Drivers
f. Alcohol consumers (especially heavy drinkers)
Commuters/ employees
Transportation officials and decision makers, including
engineers, p lanners, developers, local officials /leaders, and
law enforcement officers.
71
Educational messages and strategies
used to convey them should be tailored to
a particular audience and goal.
Esp ecially for child audiences, it is im-
portant to consider when and how the
audience shoul d receive information.
72
Education campaigns can teach children
about safe pedestrian practices.
Mo re details and example s of p edestrian sefery pro -
grams are p rovided in N CHRP R.eport 500, Vol-
ume 10, ~ Guide far R.educing Co llisions Invo lving
Pedestn.ans," (2004), which can be fo und at the site:
http://ww1v.n ation al-academie s.org.
Safe Routes to School programs provide
communities with strategies to make
walking to school safer.
How to Develop a Pedestrian Safety Action Plan
These audiences can be reached in a variety of ways: through
public awareness campaigns reaching a broad group of people
at once; through interventions targeting narrow groups or situa-
tions; or through an intermediary-such as a pediatrician, a par-
ent, or a grandparent-targeting people on a one-on-one basis.
For an education program to be successful, it is important to
consider:
1. When and how the audience should receive information-
for instance, children, depending on their developmental
level, may not be able to understand certain messages or
complicated images used to convey messages.
2. Demographic factors-for example, the percentage of
non-English speakers in a community affects the develop-
ment of the educational materials. Educational materials in
several languages and / or a range of distribution methods
(e.g., PSAs, posters, or presentations to neighborhood
groups) may be needed for certain populations.
The following section provides important safety messages and
strategies for conveying those messages to each of the afore-
mentioned groups. Based on identified safety concerns, goals,
and other considerations (e.g., available resources, etc.), each
community should determine the most important group or
groups to target in an education program and the appropriate
strategy to use.
Kry Educational Messages and Strategies for Targ eted Audiences
Educational messages for road users commonly focus on
improving personal safety and obedience to traffic laws. Cam-
paigns aimed at commuters or employees often focus on mes-
sages to encourage drivers to use carpools or transit, or to
consider non-motorized transportation modes. Education and
training programs aimed at transportation officials and decision
makers usually focus on encouraging stronger support for poli-
cies, programs, and facilities that promote safe walking.
The following sections provide more detailed educational mes-
sages that could be incorporated into education campaigns and
strategies that could be used to target the audiences described
earlier.
Educating child (elementary and middle school) pedestrians
Being struck by a car is a leading cause of death and injury to
children. Children, especially males age 5 to 9, are at high risk
Chapter 5: Selecti n g Safety Solutions 73
of being hit in a pedestrian crash. Young children are frequentl y
struck on the neighborhood streets near their homes. The task
of teaching pedestrian safety to children is complicated b y their
level of development. To obtain significant results, education
programs mus t improve knowledge and awareness and teach
skills appropriate for the level of development of the children
they target. One excellent resource for educating children about
pedestrian and bicycle safety skills is the Education section of
the National Center for Safe Routes to School Online Guide
(available at http:/ /www.saferoutesinfo.org/ guide / education /
index .cfm). It describes what groups to bring tog ether to edu -
cate children (including parents, caregivers, and teachers) and
others who need to know about children's need s and abilities as
bicyclists and pedestrians (including drivers and neighbors). It
also addresses when education programs need to take place.
T he NCSRTS Resource Center contains ttp sheets
for parents and other adults for teaching pedestrian
safery to children. See 1vw1v.saferoutesinfo.org/ resourc-
es/ educa!t'on_tip -sheets.cfm.
The Education section of the SRTS Guide by the N ational
Center for Safe Routes to School describes ke y me s sages for
children (primarily elementary age) (http:/ /www.saferoutesinfo.
org/ guide / education /ke y _messag es_for_children.cfm#health),
including:
•
•
•
Pedestrian safety skills .
Personal safety .
Health and environmental benefits of walking .
National Safe Routes to School Program
Nationwide
Through the 2005 passage of the Safe, Accountable,
Flexible, Efficient Transportation Equity Act: A Legacy
for Users (SAFETEA-LU), Congress designated a total of
$612 million toward developing the National Safe Routes
to School Program. The Program provides funds to the
states to substantially improve the ability of pri mary and
middle school students to walk and bicycle to school
safely.
Each state administers its own program and develops its
own procedures to solicit and select projects for funding .
The program establishes two distinct types of funding op-
portunities: infrastructure projects, such as enginee ring improvements; and non -
infrastructure related activities, such as education, enforcement, and encourage -
ment programs.
For more information on the National Safe Routes to Schoo l Program , go to the
FHWA Web site http://safety.fhwa.dot.gov/saferoutes/ or the National Center fo r
Safe Routes to School Web site http://www.saferoutesinfo.org /.
Mapping best
routes to school
(above) and par-
ticipating in SRTS
programs can help
provide school
children with safer
trips to school and
back.
74 How to Deve lop a Pedestrian Safety Action Plan
The National Center for Safe Routes to School Online Guide's
section on Education (http:/ /www.saferoutesinfo.org / guide/
education/ strategies_for_educating_children.cfm) also address-
es various strategies to educate children, including:
•
•
•
•
•
One-time instruction (s uch as an assembly) .
Classroom or physical education lessons (e .g., stand-alone,
integrated, or comprehensive curriculum for every grade).
Parent involvement strategies for at-home education .
Structured skills practice (e .g., class-based lessons, after-
school programs, or one-time events such as bike and
pedestrian rodeos).
Traffic safety quizzes or games that can be used at safety
fairs for children; traffic safety information that can be
made into games, coloring books, or other activity books.
One key message to emphasize in child and parent education
programs is that children through the age of 10 should be su-
pervised by an adult whenever walking or crossing the street.
Mapping Out A Safer Community: Safe Routes to School
Detroit, Michigan
The following content is taken directly from the site, http://maps.culma.wayne.edu/community.htm:
"In Detroit, neighborhood crime, gang activity, unrestrained dogs, and declining or dangerous prop-
erties affect students' safety to and from school. To help address a broad range of community safety
concerns, The Urban Safety Program partners with schools and community groups to implement the
"Mapping Out A Safer Community" program. In this program, Detroit middle school students receive
instruction in state-of-the-art computerized map-
ping (a.k.a. GIS-geographic information systems)
and portable computing to study neighborhoods
near their school. Using PocketPCs, students map
locations and characteristics of dangerous proper-
ties, take photographs, and research property own-
ership. They also set priorities and identify the most
problematic locations near their school. Properties
with the most egregious violations, known as "The
Dirty Dozen'; offer a compelling picture of hazards
Detroit children face daily. This information is pre-
sented to community leaders and city officials who
attempt to correct dangerous situations .
To date, the Urban Safety Program has worked with
students from: Foch Middle School, Butzel Middle
School, Spain Middle School, Finney High School, and community-based after school and summer pro-
grams. For more information, visit the Web site http://maps.culma.wayne.edu/index .htm."
Chapter 5: Se lecti ng Safety Solutions
Sustainable Transportation Education Project (STEP}
Various Cities in Canada
The Susta inable Tran sportation Education Program (STEP) was developed by Green Communities Canada to
test various approaches to engaging high school students in sustainable t ransportation issues . It was pilot-
ed in urban and rural (Peterborough, Markham, and Toronto ) schools
in Ontario, Canada. The program helped schools tackle transportation
problems while increasing awareness and education about air quality,
climate change, and healthy lifestyle issues . The program involved stu -
dent-led events and activities, such as cl i mate change presentations, a
campaign against car idling, and participation in Walk to School Week.
It also included classroom resources regarding sustainable transporta-
tion that could be incorporated into the curriculum of communications
technology, geography, science, and civics courses . Additionally, traffic
surveys were conducted with high school populations; these can be
adapted for use by environmental clubs, environmental science, geog -
raphy, social studies , civics or other courses .
For detailed case studies and reports, as well as down loadable resources
related to the STEP program , visit the site http://www.saferoutestoschool
.ca/index.php?page=step.
There is less information available on messages and strate-
gies targeting middle-school age children. What is known is
that middle school children still need skills practice as well as
exposure to messages that convey the importance of walking
and safety. To be effective, these messages should be conveyed
within themes that matter to that age group, such as fitness and
independence. Pre-teen audiences can be difficult to reach, so
creativity is a must in any educational effort. Some potential
strategies for targeting middle-school-age children include:
• Put them in control-Organize a student committee to
address the problem of safety, physical inactivity, or issues
related to excess weight. Ask them to come up with con-
tests or program ideas.
• Integrate walking into the culture in a subtle wa y-Have
teachers and administrators walk on local field trips .
• Start a Kids Teaching Kids program-Middle school
students can develop a safety assembly for elementary
students and then deliver it (or high school students can
deliver it to middle schools). Make sure that the student
teachers are well-trained to convey correct strategies and
that the teaching is within the children's developmental
level.
• Use multimedia to convey messages-Consider the use
of music, video games, and computer software in addition
75
76
Many college-age students are more like-
ly to walk and bike than drive on campus.
How to Develop a Pedestrian Safety Action Plan
to traditional media. Ask students to consider how many
songs have the word "walk" in the title. Think about using
"walk" songs as "music of the week" or as links in a class
assembly about walking to school. California's Rad Rider
Web site (www.radrider.com) has bicycle safety messages
incorporated into an online comic book and safety tests;
the site also offers a bicycle stunt show. See the example
on page 7 4 on how G IS and PocketPC technology has
been used to engage youth in pedestrian safety issues.
Educating high school and college-age pedestrians
High school and college-age students represent unique pedestri-
an education opportunities and challenges. High school students
are probably the least likely of any student age group to walk to
school, either because their high schools are sited in areas where
they are unable to walk safely to school, or because they want to
take advantage of newfound driving privileges. However, ignor-
ing high school populations for education programs would be
missing an important opportunity to engage young drivers (and
pedestrians) in safety issues. One excellent way to reach high
school students is to couple pedestrian and safety issues with
broader concerns about transportation, health, and the envi-
ronment. Almost every high school has an environmental club
or other group that will help champion these messages; at the
high school level, messages that come from peer groups may be
better received than messages coming from teachers, parents, or
other authorities.
Many college-age students are more likely to walk and bike than
drive on campus. This is due to restricted campus parking; the
expense of car ownership; and the fact that students are young,
able, and generally more physically fit than other age groups.
They are an ideal target for pedestrian safety and promotion
campaigns. However, college-age students also tend to take
more risks than many other age groups, such as older pedestri-
ans . They have a stronger perception of "invincibility,'' and may
be apathetic to safety outreach initiatives. Also, alcohol can be a
factor, even for campuses that are technically "dry."
Several universities have developed education programs and
campaigns in partnership with their Parking and Transportation
Services Office or Department of Public Safety. The College of
New Jersey and the University of Kentucky distribute a stu-
dent-oriented pamphlet of "tips, guidelines, and resources" for
getting around the campus "quickly, conveniently, and safely."
Key messages include:
Chapter 5 : Sel e cting Safety Solution s
• Reasons to walk or bike :
•
o Save money.
o Stay healthy (avoid the "Freshman 15").
o Avoid vehicle parking hassles .
Tips for crossing campus safely on foot:
o Cross the street at marked crosswalks or at intersec-
tions, and observe traffic-control signals. At inter-
sections, watch for turning vehicles that may not be
yielding to pedestrians.
o Yield to motor vehicles and bicyclists when you are not
in a crosswalk or are not crossing at an intersection.
o Stay to the right on shared pathways and avoid walk-
ing in "bike only" lanes .
o While walking or jogging alongside a road without
sidewalks, always walk or jog facing traffic.
o Make eye contact with oncoming motorists and
cyclists, indicate your intention to cross (e.g., exten d
your arm, place a foot in the crosswalk, or lean toward
the crossing), and wait for the driver to slow or stop.
o Avoid cell phone use when walking in congested
areas or crossing busy streets; wear bright colors and
walk in well-lighted areas at night; don't step into the
street from behind an obstruction.
Some important strategies for educating high school and col-
lege-age pedestrians include:
77
• D evelop partnerships for education programs-with Park-
ing and Transportation Services Office, Department of
P ublic Safety, campus health organizations, public health /
For more links to educatio nal strategies for va rious
audiences, visithttp://www.walkinginfo.org/ edu ca-
tion / message s.ifm.
University of North Carolina "Yield to Heels" Campus Safety Campaign
Chapel Hill, North Carolina
The University of North Carolina's "Yield to Heels" campaign is an ongoing pedestrian safety awareness
campaign implemented by the UNC Department of Public Safety and the UNC
Highway Safety Research Center. The"Yield to Heels" campaign intends to remove
myths about traffic and pedestrians and make helpful information about pedes-
trian safety available to the University community. The campaign focuses on three
main messages for pedestrians, drivers and bicyclists: Be Aware, Be Safe, and Be
Considerate. It involves high-visibility posters and signs; handing out promo-
tional materials, coupons, and giveaways (such as tee -shirts and retro-reflective
gear); as well as issuing warnings to pedestrians and drivers observed breaking
the laws during the campaign effort. See the campaign Web site (http://www.
hsrc.unc.edu/y2h/) for the event flier, a description of student-oriented pedes-
trian safety messages, and other helpful links.
78
Brochures and educational handouts can
be used to spread adult pedestrian safety
messages.
•
•
How to Develop a Pedestrian Safety Action Plan
injury prevention alliances or student associations, or other
student groups such as walking/bicycling clubs or environ-
mental groups.
Take advantage of campus life and university events-
distribute pamphlets or other materials at new student
orientations, large student assemblies (s uch as sporting
events), or through campus housing.
Give incentives-While distributing safety messages,
garner student interest by giving away food, wristbands,
retro-reflective gear, posters, coupons for local restaurants,
or other freebies.
Tailor a program to relate to specific student population
needs and interests-This helps engage students in un-
derstanding why pedestrian safety is important and how
it affects them directly. They learn what they can do, both
personally and as part of the school or college /university,
to improve pedestrian safety and increase walking on cam-
pus and beyo nd.
Educating adult pedestrians
The challenge of walking along and crossing streets can make
a casualty of even a fit, healthy, and alert adult. Bad weather,
fast-moving traffic, and inattention by drivers or pedestrians can
make situations worse. Some general pedestrian safety mes-
sages include:
• Make yo urself visible to drivers
•
o Wear retro-reflective materials and bright/light
colored clothing.
o Carry a flashlight when walking at night.
o Use caution when wearing headphones and talking on
cell phones while walking, especially when crossing
the street.
o Stand clear of buses, hedges, parked cars or other
obstacles before stepping into the street so drivers
can see yo u.
Avoid dangerous behaviors
o Always walk on the sidewalk; if there is no sidewalk,
walk facing traffic.
o Stay sober; walking while impaired increases yo ur
chance of being struck.
o Don't assume vehicles will stop; make eye contact
with drivers and wait until they show signs of slowing
or stopping for you.
Chapter 5 : Se le cting Safety Solution s
"Cross the Street As If Your Life Depends On It"
Education Campaign
Greater Toronto Area, Ontario, Canada
In 2002, Toronto experienced one of the worst years in terms of pedes-
trian fatalities. The Injury Prevention Coalition began a campaign to in -
crease citizen awareness and reduce pedestrian deaths and injuries in
the Greater Toronto Area. Ads were developed with the slogan, "Cross
The Street As If Your Life Depends On It, Because It Does:' Posters and
safety brochures were sent to 900 different community agencies, all
with the dramatic photo of a staged pedestrian fatality scene. These
community agencies included health services, police and fire stations,
parks and recreations centers, senior centers, licensing centers, and
more. Additionally, ads were placed in 30 bus shelters at key intersec-
tions, and a short slide show was developed to be shown in local movie
theatres, which directed viewers to a Web site with further information.
The media launch for the event was covered by several city newspa-
pers. Over 867,000 people viewed the pedestrian safety ad showed in
movie theatres. The media images and brochures were evaluated for
Cross the street as If your
life depends on it,
because it ORS.
I Injury
-~~!~~~
the effectiveness of the message, and both were found to educate readers and viewers, and bring up
previous information regarding pedestrian safety. For more information, visit http://www.sunnybrook.ca /
programs/trauma/i njuryprevent/injurypreventtipc.
0
0
0
Cross with traffic signals and not against the DON'T
WALK signal.
Don't rely solely on pedestrian signals; look before
yo u cross the road.
Watch for cars backing up in parking lots and near
on-street parking spaces.
• Look before you take a step
o Cross streets at marked crosswalks or at intersections,
if possible.
o Look left, right, behind, and left again before crossing
a street or stepping into traffic.
o Watch for turning vehicles; make sure the driver sees
yo u and will stop.
o When crossing multiple lanes, look across all lanes
you must cross and visually clear each lane before
proceeding.
Strategies for educating adult pedestrians include:
• Incorporate pedestrian safety messages into public rela-
tions efforts (news releases, fact sheets for local officials,
press events, etc.).
For more information on pedestrian education
and enforcement measures, read Chapter 8 of
NHTSAs "Countermeasures That Work"
docum ent, avai/ba/e on/ine athttp://www.
nhtsa .gov/ staticfi/es I DOT I NHTSA/
Trafftc%20I ryury%20Contro// Artie/es/
Associated%20Fi/es /HS 810891.p4f.
7 9
80
Making presentations at group meetings
with older pedestrians is one strategy for
educating senior pedestrians.
•
•
How to Develop a Pedestrian Safety Action Plan
Highlight pedestrian facilities when introducing new infra-
structure.
Create a Web-based pedestrian safety quiz on a local agency
Web site for the purpose of educating pedestrians.
Educating older pedestrians (65+)
For older pedestrians, whether they are in good health or not,
walking can provide strong health and quality of life benefits.
However, research has shown that older pedestrians are often
overrepresented in fatal pedestrian crashes. If they survive the
crash, they may be disabled or confined to a nursing home. Old-
er adults are often struck while crossing streets in crosswalks or
by drivers making turning movements through crosswalks.
Older adults can be receptive to well-crafted safety messages. In
addition to the general messages described in the ''Adult Pedes-
trian" section, key messages for older pedestrians could include:
•
•
•
•
The threats presented by cars making turns .
Tips for crossing intersections slowly but safely, including
waiting for a 'fresh' green light before crossing at a signal .
Good choices of footwear (for better traction) and visible
clothing (bright and retro-reflective) for walking at night.
Tips for avoiding backing vehicles, including watching for
back-up lights on vehicles or listening for engine noise
before walking behind vehicles .
Strategies for educating older pedestrians include:
•
•
Initiate campaigns to targeted settings / situations where
older pedestrians may be concentrated (e.g., retirement
communities, healthcare clinics/hospitals, libraries,
churches, etc.).
Contact established organizations, such as AARP, or com-
munity centers that may already have a strong network
with the older pedestrian community.
Educating drivers
An important educational feature is how motorists come to
think of pedestrians. Most motorists do not adequately look
for pedestrians, and this is, in part, a r esult of how public or
law enforcement officials educate them and enforce (or fail to
enforce) certain behaviors. In pedestrian-vehicle crashes, the
pedestrians are often blamed, even when the motorist was at
fault because of the underlying assumption is that streets are
Chapter 5: Selecting Safety Solutions
primarily for motorists. Educators and law enforcement officers
need to work to change these views to ensure that pedestrians
are accepted as legitimate users of the street network.
Roadway safety is a shared responsibility, and motorists have
their fair share of things to do to comply with the rules of the
road and help keep pedestrians safe. Some general driver safety
messages include:
• Watch for pedestrians at all times
•
•
o Scan the road and the sides of the road ahead for
potential pedestrians.
o Before making a turn, look in all directions for pedes-
trians crossing.
o Don't drive distracted or after consuming alcohol or
other drugs.
o Do n ot talk on a cell phone while driving.
o For maximum visibility, keep your windshield clean
and headlights on.
Yield to p edestrians at crossings
o Yie ld to pedestrians at crosswalks, whether marked or
unmarked .
o Yield to pedestrians when making right or left turns
at intersections.
o D o n ot park in or block crosswalks. Provide a safety
zone for pedestrians.
Drive within the posted speed limit and avoid aggressive
maneuvers
o If yo u are traveling on a road with more than o n e
lane of traffic, be especially aware of motor vehicles
stopped for crossing pedestrians. Do not pass the
stopped vehi cl es .
o Obey speed limits and come to a complete stop at
stop signs and signals.
o Always be prepared to stop for pedestrians.
Strategies for educating drivers include:
•
•
Plug into local media-have driver safety awareness cam-
p aigns on Tv, in radio traffic-watch PSAs, and in newspa-
p ers; host a commute-time radio talk series on pedes trian
safety issues, or develop an ad campaign to be displayed
on billboards, in parking garages, or in other places m ost
visible to drivers.
Place and distribute driver safety material alongside pedes-
trian safety material. Most walkers are drivers, too.
81
82
Excessive drinking can pose a serious
concern for pedestrians and drivers alike.
•
•
•
•
How to Develop a Pedestrian Safety Action Plan
Couple education with enforcement to reinforce driver
knowledge of and compliance with pedestrian-related laws.
Add pedestrian safety information to state driver's lic ense
manuals and maps where traffic safety tips provided by a
state or community are displayed.
Create Web-based traffic safety quizzes (that include
pedestrian safety questions) on a local age ncy Web site
for the purpose of educating drivers.
Use engineering treatments (s uch as roadway signs and
in-street signs) to alert drivers to pedestrians and spread
educational messages about yi elding to pedestrians. See the
Engineering treatments section for more engineering tools
related to educating drivers .
Educating alcohol consumers
Most people know the risks of drinking and drivi ng, but what
many people may not know is that excessive drinking can have
the same deadly consequences for pedestrians. Alcohol plays
an important factor in one-third of all pedestrian deaths-this
number is based on pedestrians who h ave been drinking and
doesn't include drinking on the part of the driver . Alcohol-
related pedestrian deaths often involve males and occur at night,
especially on weekends. Unfortunately there are typically no
'drunk pedestrian' laws that allow police officers to arrest and
easily remove a pedestrian from harm's way. The problem of
alcohol-impaired drivers and pedestrians is complex and re-
quires a multifaceted approach including both education-based
programs as well as oth er intervention methods, including engi-
neering and enforcement.
Alcohol impairs phys ical agility and balance. It also adversely
affects vision, judgment, and other thought processes, which
become extremely important when pedestrians try to cross the
road. It is widely accepted that the alcohol-impaired driver is a
major threat to pedestrians and all other road users. Research-
ers have also found that for a pedestrian, high levels of blood
alcohol are associated with an increased risk of being hit by a
motor vehicle. The following messages for alcohol consumers
are described in the NHTSA resource guide, The Facts: Impa ired
Pedestrians:
For motorists:
• Do not drive impaired. It slows yo ur reaction time,
impairs yo ur judgment, and affects yo ur alertness and
coordination.
Chapter 5: Selecting Safety Solutions
• When you drive, particularly at night around populated
areas, watch for sudden, unexpected movements by pedes-
trians. Scan the road widely and often, and prepare for the
unexpected. Slow down!
• If yo u know someone who has been drinking and is plan-
ning to walk, call them a cab or offer to drive or escort
them, even if it is only a short distance.
For pedestrians:
•
•
•
Remember that alcohol affects yo ur balance, impairs your
judgment, and reduces your alertness and coordination.
It can also affect your vision.
Limit how much alcohol yo u consume, especially if you
plan to walk. Do not fool yo urself about yo ur ability to
walk in traffic safely.
Be more visible to traffic by carrying a flashlight or wear-
ing retro-reflective clothing at night. During the day,
wearing fluorescent colors is best. Wearing white, especially
at night, is not enough for you to be seen adequately by
motorists.
• If yo u know someone who has been drinking and is plan-
ning to walk, offer to call them a cab or escort them, even
if it is only for a short distance.
One strategy for educating alcohol consumers is to initiate
public awareness and education campaigns to inform pedestri-
ans and alert drivers about the hazards associated with walking
while impaired. It is also important to train law enforcement
officers and point-of-sale personnel ab out impaired pedestrian
iss u es and the dangers of over-serving in general.
The following are some additional strategies that could be
combined with public awareness campaigns to provide a more
comprehensive approach to the alcohol issue:
•
•
•
•
D evelop or amend local or state laws that control the avail-
ability of alcohol (e.g., laws that dictate when bars must
close, etc.).
D evelop or amend laws to allow police to arrest or detain a
pedestrian if they are out walking impaired and may harm
themselves or others.
Work with health officials, employment centers, and other
related groups for the early identification and treatment of
persons with alcohol problems.
Address environmental issues (e.g., through improved
lighting, sp eed control measures on commercial strips,
etc.) and devise different interventions for use on high-
83
Most alcohol-related crashes occur at
night. Safety messages aimed at alcohol
consumers and intermediaries should
describe ways for pedestrians to be more
visible at night.
84
Educating employees about the benefits
of walking, and encouraging commuters
to consider walking can be an important
part of a company or agency's traffic
safety program.
For more information on business-bas ed 1valking
programs1 visithttp ://w1vw.americanheart.org/
presenter jhtml?iden tifier= 3040830.
For more information on promoting walking1 visit:
http://ww1v.1valkinginfo.org/ promote/ strategies.ifm.
How to Develop a Pedestrian Safety Action Plan
speed roads in rural areas and medium -speed road s in
urban areas where there is a pattern of drunk pedestrians
being struck by motorists. See the Engineering solutions
described in the first part of Chapter 5 for more strategies
related to environmental issues.
Educating commuters/employees
There are many who drive to work daily who could walk,
bicycle, or take transit. Often, this creates unnecessary roadway
congestion, which may lead to increases in motorist-pedestrian
crashes, as well as increases in pollution. Many communities
and local agencies have transportation demand management
(fDM) programs, which aim to educate road users about their
commute choices, provide incentives and alternatives to reduce
driving to work, and can result in more efficient use of trans -
portation resources. Educating commuters about travel options,
benefits, and safe practices is an important component of any
comprehensive pedestrian education program . The ke y to en-
couraging more commuters to travel by foot is to educate them
on the benefits of walking and the feasibili ty of doing it.
Educating employees about the benefits of walking and safe
walking/ driving habits can be part of a company or agency
traffic safety program. It is not uncommon for large companies
to institute a driver safety program to reduce the chance that
their employees will get into a crash, keep insurance premiums
low, and help reduce the company's exposure to tort liabili ty
by reducing crashes. Some companies, such as Dow Chemi-
cal, require employees to take a traffic safety and map reading
course before being allowed to travel for the company. Others
require employees to take a mandatory defensive driving course
every couple of years. Companies can include information on
safe walking practices and driving practices around pedestrians
in their curricula.
The following are some ideas for marketing non-motorized
travel modes, and providing choices and incentives for walking
as part of a commute, drawn from the Victoria Transport Policy
Institute (http:/ /www.vtpi .org/tdm/index.php#incentives):
• Hold bicycling and walking events and activities, particu-
larly on trails and cycling routes.
• Develo p bic ycling and walking commute campaigns; these
can involve contests as to which workers and worksites
commute most by nonmotorized modes.
• Provide and promote bicycle parking, showering, and
Chapter 5: Selecting Safety So l utions
•
•
•
•
•
clothes changing facilities at worksites, transportation ter-
minals, and other destinations.
Develop and distribute education materials and programs
that teach cycling skills.
Create walking and bicycling maps showing recommended
routes and facilities, roadway conditions (shoulders, traffic
volumes, special barriers to cycling, etc.), hills, recreational
facilities, and other information helpful to pedestrians and
bicyclists.
Develop tourist promotion materials highlighting bicycling
and walking.
Create a Multi-Modal Access Guide, which includes maps
and other information on how to walk and cycle to a par-
ticular destination.
Employers (including public agencies) can create a manda-
tory defensive driving program to improve the safety of
their employees and reduce their tort liability. This cam-
paign should include pedestrian safety information.
Educating elected officials, transportation officials and decision-
makers
Educating the pedestrian alone is not enough. An effective pro-
gram to improve pedestrian safety and mobility should also ad-
dress those responsible for approving, planning, designing, and
developing a safe pedestrian network. Elected officials, trans-
portation officials, and other decision-makers must have buy-in
on the importance of walking and the need for safe walking
conditions. Otherwise, they may not provide the resources to
address the problems. Their support for pedestrian education
programs, stepped-up enforcement activities, and infrastructure
improvements is crucial. It is important for elected officials and
transportation decision-makers to understand and believe that:
•
•
•
•
•
Walking is an integral and critical part of the transporta-
tion system.
The presence of pedestrians is a good indication of the
health and vitality of a community.
Walking is the most basic form of transportation, and ye t
also the easiest to overlook or take for granted.
Designing a safe, convenient, and comfortable walking
environment requires careful p lanning, engineering, atten-
tion to detail, and ongoing maintenance and care.
Physical improvements must go hand in hand with land
use control, legal changes, enforcement, education, and a
complete package of measures that require coordination
and support from politicians as well as professionals.
Get Active Orlando
Orlando, Florida
Orlando's expa n sive program , Ge t
Act ive Orlando, (funde d by Active
Liv in g By Design) ai m s to encourage
and facilitate wa l king and biking
in the downtown area . Get Ac -
t ive Orlando's vi si on is t o establ ish
downtown Or lando and its adjace nt
ne ighborhoods as an "Act ive Living
Dis t rict;' with residents, employees,
and others in the downtown area
rout i nely ma k ing the ac t ive choices
in an environ m ent tha t encourages
safe physical act ivity. The Get Ac -
tive Orlando partnersh i p plans to
develop and implement a campaign
that focuses on the importance of
dai ly active livi ng and is developing
a "Point of Choice " campaign that
educates people on the i r options for
act ive travel i ng. For more i nforma-
tion, visit http://www.act iveliving.
org/node/291 ?ta b=su m ma ry.
get
85
86
An effective program to improve pedes-
trian safety and mobility should include
elected officials and transportation deci-
sion-makers responsible for approving,
planning, designing, and developing a
safe pedestrian network.
How to Develop a Pedestrian Safety Action Plan
Some strategies for educating elected officials and transporta-
tion officials and other decision-makers include:
•
•
•
•
•
Show the facts-improve data to better describe the nature
of the pedestrian problem in the community and to justify
attention to pedestrian concerns.
Conduct internal campaigns within the organization to
build staff support for the pedestrian safety program (i n-
house meetings, newsletters, forums, etc.).
Develop relationships and partner with other agencies
(s uch as transit agencies, public health agencies, police
departments, etc.) that have an interest in pedestrian issues
and a responsibility for the public welfare.
Plan events and activities that encourage officials to walk
with an escort that can point out challenges and potential
solutions.
Partner with safety groups, community groups, homeown-
ers associations, and others to lobby to politicians and
decision-makers at the local and state level.
Enforcement Solutions
Overview
Programs to improve pedestrian safety should consider enforce-
ment activities, in addition to engineering and education strate-
gies. Enforcement, as well as education, teaches motorists and
pedestrians about traffic safety and the laws that govern their
rights and responsibilities.
The main goal for enforcement strategies is to deter unsafe
driver and pedestrian behavior and to encourage all road us -
ers to obey traffic laws and share the road safely. Enforcement
is one strategy to improve pedestrian safety, but enforcement
alone will not likely have a long-term effect. Communities must
combine enforcement, engineering and education strategies to
address specific needs and achieve long-term results.
An important issue is motorists' awareness of the presence of
pedestrians. Many motorists do not routinely look for and yield
to pedestrians. The pedestrians are often blamed in pedestrian-
vehicle crashes because of the underlying assumption that road-
ways are primarily for motorists. Law makers, local officials, and
law enforcement officers need to work to change these views to
ensure that pedestrians are accepted as legitimate users of the
street network. Motorists need to be taught and reminded that
pedestrians are more difficult to see than motor vehicles and
Chapter 5: Selectin g Safety So lutions
therefore conscious efforts are needed to reach for pedestrians
in order to avoid collisions.
Furthermore, the Uniform Vehicle Code (UVC), that contains
the vehicle and traffic laws of the United States, and most
state laws require drivers to exercise due care any time they see
a pedestrian in the roadway. The UVC was established by the
national committee on Uniform Traffic Laws and Ordinanc-
es-a private, non-profit membership organization-as a set
of guidelines related to motor vehicle safety. These guidelines
or model legislation are then adopted by states as is or with
changes to wording as each state chooses. UVC Section 11-504
states that "Notwithstanding other provisions of this chapter or
the provisions of any local ordinance, every driver of a vehicle
shall exercise due care to avoid colliding with any pedestrian ....
and shall give an audible signal when necessary, and shall exer-
cise proper care and precaution upon observing any child or any
obviously confused, incapacitated or intoxicated person."
Complementary enforcement, education and engineering mea-
sures increase the effectiveness of safety programs. For exam-
ple, to encourage more motorist yielding to pedestrians in cross-
walks, the roadway should be designed to promote lower motor
vehicle speeds and provide clear sight lines between drivers and
walkers. Police enforcement should give warnings and tickets
Enforcement Programs Work
Enforcement programs increase the percentage of
motorists yielding to pedestrians and also motorist
awareness of pedestrians. They can also target motor-
ists that are speeding or those that pass vehicles that
are yielding to pedestrians. Malenfant and Van Houten
(1989) measured large increases in yielding behav-
ior in three Canadian cities employing enforcement
complemented with educational outreach and several
engineering interventions. Although safety may have
been greatly influenced by the engineering interven-
tions, the enforcement component increased yielding behavior (Malenfant, 1989).
More recently, this program has been applied to increase yielding behavior in Miami Beach, Florida . Data
collected to date show that yielding has increased in both corridors following the introduction of the pro-
gram and that maintenance strategies are working to maintain the increase in yielding behavior. Data also
indicated that enforcement tactics for increasing yielding behavior to pedestrians in marked crosswalks at
uncontrolled locations can be applied at other crosswalk locations.
For more information, visit: http://www.hsrc.unc.edu/pdf/pedbike/99090.PDF.
87
88
Enforcement should include a network of
community members working together to
promote safe walking and driving.
How to Develop a Pedestrian Safety Action Plan
to violating motorists. Simultaneous public education programs
should be used to educate the public about the importance of
motorist compliance to such laws and the possible consequenc-
es of not doing so. A pedestrian safety program in Miami-Dade
County, Florida, that incorporated engineering, education and
enforcement components reduced pedestrian crash rates. (For
more information, see Comprehensive Approaches on page 108
and 109.)
The public typically thinks of enforcement as officers writing
tickets. In reali ty, enforcement should be a network of com-
munity members working together to promote safe walking and
driving. This can be accomplished through safety awareness,
education, and, where necessary, the use of warnings and / or
ticketing for dangerous and illegal behaviors. Enforcement
entails members of the community working in conjunction with
law enforcement. Working together to enforce rules for reason-
able and careful walking and driving makes it safer and easier
for everyone to walk.
A critical factor in conducting pedestrian enforcement is having
support from important stakeholders including local politicians
and traffic court judges as well as law enforcement person-
nel. Politicians can ensure financial support for programs, and
judges, once they understand the magnitude of the problem and
how a particular enforcement program is conducted, may be
more likely to convict violators. This is critical as law enforce-
ment officers may not continue to write citations if they are
consistently thrown out in court.
An adequate level of enforcement is needed to control motor-
ist and pedestrian behavior, especiall y in school zones. Studies
by Van Houten (2 004) and others have found that enforcement
aimed at motorists is more effective than enforcement aimed
at pedestrians. ''Anti-jaywalking" campaigns have proven inef-
fective and very unpopular. Police interaction with pedestrians
should focus on education and warnings rather than giving
citations. It has generally been more effective to cite motorists
for violations related to pedestrian safety. While the laws clearly
explain the dual responsibility of motorists and pedestrians, the
reality is that the greatest threat to safety is a motorist who is
operating a heavy motor vehicle, often at relatively high speeds.
Also, enforcement programs that involve frequent and reason-
able motorist penalties are more effective than enforcement
'-that is less frequent but imposes high penalties for a motorist
violatioq.
Chapter 5: Select i ng Safety Solu tions
Police resources should be used to enforce pedestrian cross -
ing rights and to control motorist speeds. This requires speed
limits to be established at reasonable and desirable lev els. Police
departments should undertake training programs so that the
police officers who are responsible for enforcement programs
understand the laws and issues surrounding pedestrian safety.
Existing Pedestrian and Traffic Laws and their Enforcement
Many laws and ordinances addressing the safety of pedestrians
currently exist. The Resource Guide on Laws Related to Pe-
destrian and Bicycle Safety includes provisions of vehicle and
traffic laws for every state in the U.S. that may affect pedestrian
or bicycle safety. The Guide also contains existing state laws and
local ordinances that are not included in the Uniform Vehicle
Code, but have been implemented in one or more states or
municipalities and are considered to have a positive effect on
pedestrian or bicycle safety. Model legislation designed to en-
hance pedestrian safety is also included . The Guide is available
as a download or can be ordered from the NHTSA Web site.
(See http://www.nhtsa.dot.gov/ people /injury / pedbimot/bike /
resourceguide/index.html.)
A comprehensive enforcement program includes reviewing
existing relevant laws in a given locality. If necessary, modifica-
tions to the laws to improve the safety of pedestrians can be
explored. A team of law enforcement officials, city attorneys,
traffic court personnel and other interested stakeholders should
review laws and ordinances that impact pedestrian safety, com-
pare them with existing model ordinances, and consider chang-
ing them to increase the safety benefit to pedestrians. For exam-
ple, statutes that require drivers to yield to a pedestrian standing
on the curb at a crosswalk are stronger than those that say yo u
must only yi eld to pedestrians in the crosswalk. Statutes that
require drivers traveling in both directions to yield can reduce
the number of pedestrians trapped in the center of the roadway.
Changes to laws or ordinances should be made first at the state
level, and then at the local level. Any changes or additions need
to be publicized to the public to have any positive effect.
Identifying Unsafe Beha viors
Effective enforcement programs, like any safety efforts, first
must identify unsafe behaviors of drivers and pedestrians, and
then select appropriate strategies for improving these behav-
iors. There are many ways to identify unsafe behaviors; an
observation of driver and pedestrian activity is a good way to
89
Enforcement programs that involve fre-
quent and reasonable motorist penalties
are more effective than enforcement that
is less frequent but imposes high penal-
ties for a motorist violation.
9 0
Motorist fails to yield to ped est rian in
crosswalk.
How to Develo p a Pedestrian Safety Action Plan
start. Speed measurements and examination of recent crash
reports provide additional information. Collecting data to
identify pedestrian safety problems is discussed in Chapter 3
and approaches used to analyze this information are discussed
in Chapter 4. To start, look for the common unsafe behaviors
listed below when observing traffic.
Driver Behaviors
Unsafe motorist behaviors may include the following:
•
•
•
•
•
•
•
•
•
Speeding, especially through residential streets and school
zones. (Speed is directly related to crash severity and is also
a likely factor in crash causation .)
Failing to yield to pedestrians, especially in crosswalks .
(The law requires drivers to yield or stop for pedestrians in
crosswalks -it's a law that is often ignored.)
Running red lights or STOP signs .
Passing cars stopped for pedestrians crossing the street .
Passing stopped school buses .
Parking or stopping in crosswalks .
Failing to yield to pedestrians when making right or left
turns.
Failing to yield to pedestrians on sidewalks when entering
or leaving driveways or alleys.
Driving while distracted .
Some drivers don't think about the risks they create. A driver
may not think going 10 mph over the speed limit will be notice-
ably less safe, especially on a wide, inviting street. Neverthe-
less, just a 10 mph difference in speed can greatly affect vehicle
stopping distance and greatly affects whether a pedestrian lives
or dies when struck by a car. In a 20 mph impact, a pedestrian
Padestr an In u:r ·es at Impact Speeds
85 % death 15% injured
30mph
If a pedestrian is hit by
a motor vehicle traveling
40 mph, the risk of dying
increases to 85 percent.
20mph
45 % death
5% death
50% injured 5% uninjured
65% injured 30% uninjured
Chapter 5: Selecting Safety Sol utions
has about a 5 percent chance of dying when hit by a car. At 30
mph, the chance of dying increases to roughly 45 percent. If a
pedestrian is hit by a motor vehicle traveling 40 mph, the risk of
dying increases to 85 percent (see graph below).
Pedestrian Behaviors
A critical component of enforcement activities is ensuring that
pedestrians know and follow the safety rules whether or not
they are laws . Some unsafe pedestrian behaviors that enforce-
ment can influence include:
•
•
•
•
•
•
•
•
Crossing a street at an undesirable location .
Not looking left, right and left again before crossing the
street.
Not continuing to look for traffic while crossing .
Darting out between parked cars and trucks .
Not stopping and looking any time before stepping in
front of a vehicle or obstacle that is blocking the view of
traffic .
Wearing dark clothes when there is poor lighting .
Not following the directions of traffic signals or crossing
guards.
Walking along a street with their back to traffic.
Using information obtained from crash and other data, the
review of relevant laws, and direct observation of behavior,
a team of law enforcement officers, traffic officials and other
stakeholders can develop a p lan and determine strategies to use
to enforce laws and improve the safety of pedestrians.
&le of Law Enforcement Officers
Law enforcement officers see the consequences of motor ve-
hicle crashes and the behaviors that cause these consequences.
It is vital that they connect the two. From conducting education
and enforcement campaigns to identifying unsafe conditions,
law en forcement officers can play multiple roles. D emands on a
law enforcement department and the level of participation they
can offer vary among communities. It is important to under-
stand the level of resources available for local law enforcement.
Some communities reserve law enforcement resources for
situations where pedestrians face direct or demonstrated harm,
or when unsafe behaviors persist despite engineering improve-
ments.
P e d estrian signal violations can lead to
crashes.
91
92
Enforcement measures can be taken to
help encourage safer motorist habits.
Law enforcement officers can help im-
prove pedestrian safety in a number of
ways, including evaluating traffic con-
cerns, providing enforcement presence,
and educating members of the commu-
nity.
How to Develop a Pedestrian Safety Action Plan
Types of Law Enforcement Officers
State police or highway patrols, sheriff departments and local
law enforcement agencies all may be partners in a pedestrian
safety program. There are at least three general types of law en-
forcement officers that typically assist pedestrian safety efforts:
•
•
•
Traffic Enforcement Specialists/Motor Officers-These
officers are assigned to specialize in traffic enforcement.
They respond quickly to traffic safety hot-spots. Often
these officers utilize motorcycles, and are often referred to
as 'motor officers'.
Community Action Officers (CAOs)/Precinct Officers-
These officers are generally assigned to a specific portion
of the city and work on problem areas. While they do not
specialize in traffic enforcement, they can be called in for
enforcement activities and help coordinate with motor of-
ficers.
School Resource Officers (SROs)-Some law enforcement
officers are assigned to schools and concentrate on special
problems such as gangs, drugs, and other problems. They
can also be used to help solve special traffic problems on
or near a school campus and can coordinate with the mo-
tor officers and CAO s.
Officers can serve in the following ways:
•
•
•
Teach members of the community to recognize and
understand traffic, pedestrian and bike safety problems. In
addition to participating in community meetings, school
safety assemblies, and safety fairs, educational efforts can
include pedestrian and bicycle rodeos and providing media
interviews on traffic safety issues.
Evaluate local traffic concerns, observe problem areas and
behaviors, and provide input about safety improvements.
Law enforcement officials can be a val uable part of a
safety audit team.
Provide an enforcement presence that discourages dan-
gerous behaviors . For example, this m ay involve issuing
warnings to drivers breaking traffic laws. Drivers who have
made a minor error will often respond to a warning from
an officer by being more careful. Drivers who continue to
violate traffic laws need to be ticketed.
Collaborate with traffic engineers and other stakeholders
regarding problem areas.
Chapter 5: Selecting Safety Solutions
Community Enforcement Approach
Members of a community can work together to improve safety
behaviors in many ways. Neighborhood speed watch programs
and yard sign campaigns can provide opportunities for resi-
dents to educate drivers about the consequences of excessive
driving speeds, while simultaneously making drivers aware that
the neighborhood is concerned about safety. The community
can work together to improve the safety of children walking to
school by developing school crossing guard programs and safe
routes to school walking plans. All adults in a community need
to be good role models for their children and others b y driv-
ing safely, b y actively looking left-right-left before entering the
street, by crossing streets at prescribed locations such as marked
crosswalks when they are available, and by following other traf-
fic rules .
Neighborhood Speed Watch
Neighborhood Speed Watch programs are a traffic-related varia-
tion of neighborhood watch or crime watch programs. Such
programs encourage residents to take an active role in chang-
ing the behavior of motorists on their neighborhood streets b y
helping raise public awareness and educate drivers about the
negative impact of speeding. Residents record the speed, and
the license plate and vehicle information of speeding motor
vehicles using radar units borrowed from a local law enforce-
ment agency. This information along with a letter is sent to the
owners of the vehicles informing them of the observed viola-
tion and encouraging them or other drivers of their vehicles
to drive in compliance with the posted speed limit. This type
of awareness encourages some speeding drivers to slow down,
but it often has limited long-term effectiveness in changing
the problem, and many people are reluctant to 'tattle' on their
fellow residents. Neighborhood Speed Watch programs can
educate neighbors about the issue and help boost support for
long-term solutions, such as traffic calming. Drivers also learn
that residents will not tolerate speeding in their neighborhoods.
This program is more effective when implemented along with a
neighborhood education program involving distributing traffic
safety information through door hangers or other means.
The organization of neighborhood speed watch programs can
vary. Some jurisdictions have "Citizen's Patrol" elements in the
police department and others have neighborhood volunteers to
oversee the program.
93
Neighborhood speed watch programs
can increase motorists' awareness of their
speeds and the posted speed limits.
For more information on local neighborhood
spe ed watch programs, visithttp ://www.slcgov.
com/ transportation/TrafficManagement/ speed-
watch.htm and http://www.ci.seattle.wa.us/
transportation/ speedwatch. htm .
9 4 How to Devel o p a Pedestrian Safety Action Plan
Slow Down Yard Sign Campaigns and Pace Car Campaigns
Slow down yard sign campaigns allow residents to participate in
reminding drivers to slow down. Neighborhood leaders, safety
advocates and law enforcement officials work in partnership
to identify problem areas, recruit residents to post ya rd signs,
organize distribution of yard signs, garner media attention, and
evaluate the effectiveness of the campaign. Slow down ya rd sign
campaigns may be conducted along with other speed enforce-
ment efforts, such as progressive ticketing campaigns, and other
safety efforts, such as neighborhood pace car campaigns and the
use of speed radar trailers .
Yard sign camp aigns remind d rivers to
s low dow n . An evaluation of a yard sign campaign by the Safe Community
Coalition of Madison and Dane County, Wisconsin, concluded
that the signs are noticed and people do slow down when the
signs are up, especially when speed boards are used to show
drivers their approaching speed.
"KEEP KIDS ALIVE, DRIVE 25" Campaign
Omaha, Nebraska
Speeding in residential areas is al l too common and renders neighborhoods
unsafe for children and other pedestrians. Beginning in 1998, a local resident of
Omaha, Nebraska started a grassroots education campaign to reduce residen-
tial speeding, a campaign that has since spread to over 240 communities all over
the US. Collaborations between local residents, schools, neighborhood associa-
tions, local businesses, law enforcement, and traffic engineering and transpor-
tation departments improved mutual trust and strengthened opportunities to
get the message out.
The education program was founded on the recognition that the majority of
speeders in neighborhoods are res idents themselves and that most speeders
simply aren't paying attention. Elements of the public awareness campaign have
.--1..,...-1, _,, •"'-
KEEP KIDS
ALIVE
DRIVE
25.
included street and yard signs, brochures, bumper stickers, trash can decals and even public service an-
nouncements, all containing the dramatic and effective slogan, "Keep Kids Alive, Drive 2s:'Other slogans
expanded the message outside the neighborhood: "No Need to Speed;'"STOP. Take 3 To See;"'Check Your
Speed;' and a Spanish language version, "Mantenga A Los Ninos Vivos, Maneje A 25:' Funding has come
through both the sale of related educational products as well as partnerships with local businesses. For
example, Radio Disney sponsored public service announcements in Omaha, and Blue-Cross-Blue Shield
of Nebraska underwrote the cost of bumper stickers. In some cases, local departments of transportation
have sponsored joint enforcement or engineering efforts, such as the installation of radar trailers and
street signs.
The campaign has been a widely recognized success. The first study of effectiveness, conducted in
Oceanside, CA, found a 16 percent decrease in average speed of vehicles in targeted neighborhoods. A
similar success was found in Omaha, where 75 percent of drivers braked when passing a yard sign . For
more information, contact Tom Everson atTom@kkad25.org or visit www.keepkidsavlivedrive25.org.
Chapter 5: Selecting Safety Solutions
Neighborhood pace car programs aim to make neighborhoods
safer for pedestrians, bicyclists and drivers. Resident pace car
drivers agree to drive courteously, at or below the speed limit,
and follow other traffic laws. Programs usually require inter-
ested residents to register as a pace car driver, sign a pledge to
abide by the rules, and display a Pace Car bumper sticker on
their vehicle.
Neighborhood Fight Back Programs
Neighborhood Fight Back programs are collaborative efforts
between local governments and concerned residents to address
crime, blight and other issues negatively impacting their neigh-
borhoods. Though typically used to address illegal drug and
other criminal activity, traffic and pedestrian safety is another
area of concern targeted by Fight Back programs. The lo-
cal government provides multi-agency support over a limited
period of time to concentrate enforcement activities in specific
neighborhoods.
Adult School Crossing Guards
Well-trained adult school crossing guards can play a key role in
promoting safe driver and pedestrian behaviors at crosswalks
near schools. They help children cross the street safely and
remind drivers of the presence of pedestrians. A guard helps
children develop the skills to cross streets safely at all times.
Adult school crossing guards can be parent volunteers, school
staff or paid personnel. Annual classroom and field training
for adult school crossing guards as well as special uniforms or
equipment to increase visibility are recommended, and in some
locations required. For more information, visit http:/ /www.
saferoutesinfo.org/ guide/ crossing_guard/ index.cfm.
Safe Routes to School Programs
Safe Routes to School (SRTS) is a national program teaching
education, enforcement, engineering, and encouragement strate-
gies for communities to make walking to school safe and more
widespread. The main goal for SRTS enforcement strategies is
to deter unsafe behaviors of drivers, pedestrians, and bicyclists,
and to encourage all road users to obey traffic laws and share
the road safely. Enforcement used alone will not likely have a
long-term effect. Communities must utilize a combination of
strategies to address the specific needs of their schools and
achieve long-term results.
95
For more iriformation on pace car programs, visit
http://www.ci.madison.wi.us/ health/ pubnews/
pelf _files/ yardsignpdf.
For information on neighborhood fight back
programs, visit http://phoenix.gov/ SD/
fightbck.html andhttp://www.asu.edu/ copp/
morrison /public/ FightBackEvaluationpdj.
Trained adult school crossing guards play
a key role in promoting safe driver and
pedestrian behaviors near schools.
To learn more about Saft R.outes to Schoo~ go to
http://w1vw.sajeroutesirifo.org. FHWA program
guidance for Saft R.outes to School is available at
http://sajeryjhwa.dot.gov/ saferoutes/ srtsguid-
ance.htm.
96 How to Develop a Pedestrian Safety Ac t ion Plan
Developing Safe Route to School Walking Route Maps
Phoenix, AZ
Phoenix, like many other communities, is working with school officials and parents to develop walking
route maps to provide young students guidance on routes to walk to and from school. The intent of the
program is not on ly to make the school trip safer by identifying the safest routes, but it also involves a
comprehensive review of the walking routes by school officials and parents to identify problem areas. The
walking route plan helps to identify where improvements are
needed and where to place crosswalks, STOP signs and adult
school crossing guards. The ultimate purpose of the walking
routes is to encourage more children to walk to school and dis-
courage parents from driving their children to school.
The school provides the walking attendance boundary map
and parent volunteers to work on reviewing and developing
the walking routes. The city provides aerial photographs, quar-
ter-section maps and guidelines for parents and school officials
on how to conduct their reviews. The process requires parent
volunteers or school officials to review the entire walking route
and to identify the most desirable walking route to serve each
household within the walking attendance boundary. This exercise may also involve a revision of the walk-
ing attendance boundary if safe routes can be identified or created to serve more students.
Once the walking route maps are completed, traffic officials review the areas of concern and work with
school officials to assure that the right number and placement of adult school crossing guards exists . The
city provides fina l versions of the maps and maintains the computer files for the walking routes . It is the
responsibility of the school officials to distribute the walking route plans to the parents at the start of the
school year and when new students are enrolled at the school. School walking route maps are reviewed
annually to identify if there are any changes to or within the school walking attendance boundary.
Although SRTS programs vary among communities, they often
include exercises to map out the best ways to walk to school and
implement strategies to encourage more walking. These plans
can relate to enforcement and help identify where crossing
guards or police enforcement can significantly reduce crash risk.
Safe walking routes can also be developed to help other groups,
such as senior citizens, identify routes to walk to nearby stores
and medical centers. Developing the route maps can help target
problem areas for improvements.
Recommended Law Enforcement Approach
Effective law enforcement has four basic steps:
1. Notify the community. An effective program will seek to
notify all community members that a strong traffic law
enforcement program is beginning.
Chapter 5: Selecting Safety Solutions
2. Use public awareness and education first. Public aware-
ness and education is effective when applied prior to
law enforcement activities. The awareness and education
messages should inform people of the problem and why
enforcement action is needed. This will generate public
support and help offset complaints from those who are
caught breaking the law. The public then needs to know
what the enforcement activities will be and when they
will start, as tickets are more likely to hold up in court
when this groundwork has been done. Mass mailing and
media campaigns using local television stations, radio and
newspapers may help spread the message. Radio 'traffic
watch' programs are an excellent way to spread the traffic
safety message. Portable speed limit signs and speed reader
boards are effective tools for providing real time speed in-
formation to drivers. For some drivers, raising that aware-
ness may be enough to cause them to alter their behavior.
3. Provide officer training. Officer training is critical to an
effective law enforcement program. The training should
occur prior to the start of an enforcement program and in-
clude information on why, what, when, where and how law
enforcement should occur to maximize behavior change,
and to reduce the number of crashes involving pedestri-
ans. Existing laws that impact pedestrian safety should be
reviewed and discussed. For example, the officers need
to know the definition of crosswalks includes unmarked
crosswalks and they need to know pedestrian and motorist
rights and responsibilities in crosswalks.
4. Follow up. Enforcement activities, regardless of the
specific method used, require follow-up to maintain their
effectiveness. To measure the impact of an enforcement
activity in a specific situation, make a quick study before
and after the enforcement effort. Before-and-after studies
do not have to be elaborate. They can be as simple as mea-
suring speeds, or observing behaviors at crosswalks and
parent drop-off and pick-up zones. Examine the results
and decide on the next steps . If the results are positive, the
method used was likely effective in improving behavior.
If the results indicate little change in unsafe behaviors,
perhaps another method should be used. Even with initial
success, communities will need to repeat enforcement
efforts periodically in order to sustain improvements in
drivers' behaviors.
97
Officer training is critical to an effective
law enforcement program.
98
Speed trailers may be temporary or per-
manent devices to help monitor the speed
of vehicles, especially inside neighbor-
hoods.
Active speed monitors are permanent
devices to keep drivers aware of their
speeds and the need to slow down.
How to Develop a Pedestrian Safety Action Plan
Law Enforcement Methods
Law enforcement can use a variety of methods that utilize
technology and personnel to raise awareness and educate mo-
torists about driving behaviors and their relationship to safety.
A variety of law enforcement methods can help change unsafe
behaviors, making walking safer and more attractive.
Traffic Complaint Hot Line
Agencies can establish a central hot line phone number or Web
site address for citizen traffic complaints. This allows police to
coordinate their responses and concentrate on areas where there
are numerous complaints. Traffic complaints are often associ-
ated with pedestrian crossings and other violations relating to
pedestrian safety such as speeding. Where traffic complaint hot
lines have been established, most of the calls are about traffic
problems at or near schools. It is important for police to fol-
low up with the complainant on the enforcement action and
citations written . The complainants need to be told to provide
information on the time of day and day of week when the
violations are most prevalent to allow the police to better focus
their resources. The police must then analyze the complaint to
determine if it is truly the problem or merely a symptom of an
underlying cause.
Radar Speed Trailers and Active Speed Monitors
Fixed motorist feedback signs or movable radar speed trailers
can be used as part of a community education and enforcement
program. The more effective units have bright strobe lights
that will flash like a photo-enforcement camera or display red
and blue flashing lights when motorists exceed a preset speed.
Radar trailers are moved to different locations and are occa-
sionally supplemented with motor officer enforcement. Some
radar speed trailers can record speed data and traffic counts by
15-minute or hourly intervals throughout the day. This is useful
information to compare to speeds prior to and following trailer
placement. Radar speed trailers have limited long-term effective-
ness if left in place. If moved around on a somewhat random
schedule and augmented by ticketing, they can have long-term
benefits. They can also be useful in educating people and help-
ing to boost support for other long-term solutions.
Active speed monitors are permanent devices to keep drivers
aware of their speeds and the need to slow down. They are
typically mounted in conjunction with a speed limit sign and
visually display drivers' real-time speeds as they pass. Drivers see
Chapter 5: Se lecting Safe ty Solutions
how fast they are actually driving compared to the posted speed
limit . Some active speed monitors are solar-powered.
Progressive Ticketing
Progressive ticketing is a method for introducing ticketing
through a three-staged process. Issuing tickets is the most se-
vere strategy of an enforcement program . It is usually reserved
for changing unsafe behaviors that other strategies failed to
change or that pose a real threat to the safety of pedestrians and
drivers . However, some communities actively advertise that the
police will cite drivers for the more egregious violations, such
as motorists speeding more than 20 mph over the posted speed
limit.
There are three main steps of an effective progressive ticketing
program:
1. Educate-Establish community awareness of the problem.
The public needs to understand that drivers are speeding
and the consequences of this speeding for people's safety.
Raising awareness about the problem will change some
behaviors and create public support for, or at least under-
standing of, the enforcement efforts to follow. The start of
a safety campaign can be done as a part of a press confer-
ence.
2. Warn-When violations are observed, give motorists
written warnings instead of citations. This allows police
to stop motorists for lesser violations. This educational
stop allows the officers to hand out safety literature that
indicates what harm is caused by excessive speed and the
stopping distances required by higher speeds. Motorists are
often relieved that the officer did not give them a citation
and may heed the warning. There are times during the
warning period when some discretionary citations will be
given for the more flagrant violations.
Beginning a ticketing program with education and warn-
ings provides time to build support for the program as
well as time for offenders to change behaviors. Issuing
warnings allows police to contact up to 20 times more
non-compliant drivers than does ticketing. In addition, the
high frequency of stops ensures not only that many people
directly make contact with law enforcement, but also that
many others witness these stops and are prompted to start
to obey the rules.
99
B egin a ticketing program with e ducation
and warnings.
100 How to Develop a Pedestrian Safety Action Plan
Law enforcers p articipate in pedestrian
decoy operations.
: ...................... 0
0
Heed the Speed safety campaigns have
proven to be effective in reducing motor-
ists' speeds in neighborhoods. The cam-
paign in the above two photos included
adding visual illusion speed humps to the
pavement to encourage slower driving
speeds.
3. Ticket-Finally, after the warning time expires and of-
fenders continue their unsafe behaviors, officers should
issue tickets. Ticketing also gives the program credibility
by showing that law enforcement is doing exactly what
they said they would do if unsafe behavior did not change.
Unfortunately, for some people receiving a ticket and expe-
riencing the consequences is necessary, with the hopes of
encouraging them to become safer drivers.
P edestrian Decoy Operations
P edestrian decoy operations are carefully designed and thor-
oughly coordinated activities to warn motorists that the yield-
to-pedestrian laws will be enforced at target locations. Officers
prepare a site ahead of time by establishing the safe stopping
distance to a crosswalk, with a 16 km /h (10 mi /h) over the
speed limit leeway. Cones are set out in that location . An officer
in plain clothes steps into the crosswalk just before a vehicle
Heed the Speed
Nationwide
The Heed the Speed neighborhood safety program
is a combined education and enforcement neigh-
borhood safety program that has been evaluated
by NHTSA . The traffic safety campaign is conduct-
ed with active neighborhood participation using
a public information campaign and a short (i.e.,
three month), intensive police enforcement cam-
paign. Warnings are given out at first, followed by
citations by the end of the three-month period.
The education component involves community
meetings to get the word out about the conse-
quences to pedestrians and motorists of speeding
and how it affects insurance rates. Residents are
asked to voluntarily comply with the speed limits.
Safety articles are written in community newslet-
ters and local newspapers about the dangers and
consequences of speeding. Nearby high schools
and car dealerships are contacted with the same
information. Residents are provided with yard
signs with the HEED THE SPEED safety message.
Radar speed trailers and radar speed training of new officers
in these neighborhoods help to provide a high level of police
visibility. The program is repeated at intervals when speeds
increase. Machine speed studies can be used to record and
monitor speed results.
Chapter 5: Se le cting Safe ty Solutio n s
passes the cone. This gives the motorist plenty of time to yield
to the pedestrian. If the motorist doesn't yield, either a warning
or a citation is given to the driver, based on the severity of the
incident. The most effective campaigns have been accompanied
by an extensive media blitz ahead of time. All the interactions
can be recorded on video so if motorists dispute a ticket, their
behavior can be viewed by the courts. This usually leads to a
guilty plea. These campaigns have proven to be very popular, as
ped estrian s are h appy to see enforcement oriented at motorists,
who often act aggres sively towards pedestrians. The use of law
enforcement officers as decoy pedestrians provides the offi cer
with first -hand experience as a pedestrian at a difficult and busy
crossmg.
Photo Enforcement
Automated photo speed enforcement (photo radar) and red
light enforcement take a real-time photo of traffic to record ve-
hicl e speeds and b ehavi ors. It can b e used to document speeders
and those who d rive dangerously through crosswalks. In several
evaluations, the presence of photo enforcement at intersectio ns
has resulted in fewer drivers running red lights and a decline in
speed s and colli sions. T h e mere presen ce or threat of photo
speed enforcement may result in better driver compliance and
beh avior.
Automated photo speed enforcement is ju st one of many tools
law enforcemen t h as to influence driver behavior and reduce
vehicle speed. Laws on the use of photo enforcement vary
from state to state, and some states currently do not allow this
type of enforcement. P hoto radar systems typically o perate
on set speed thre sh olds, (e.g., 11 mph or more over the posted
speed limit) only capturing imag es of motor ve hicles moving
at or above the established threshold . When a violation occurs,
the system captures speed data, as well as imag e s of the mo-
tor vehicle (and in some systems the driver) at the time of the
violation . Citations are typicall y issued through the mail to the
registered owner of the vehicle after a review o f the vehicle and
regis tratio n information is completed .
Photo enforcement technology doe s not replace traditional
methods of traffic enforcement. Rather, it serves as a su pple-
ment to tradition al traffi c enforcement te chniques, in ad dition
to education and engineering efforts designed to enhance traffic
safety.
Communities wishing to apply this technology to their traf-
fi c safe ty effort s should co n sult with local co u rts, prosecuting
101
A van e quipped with photo enforcement
t e chnology can be u sed a t s ever al loca -
tions w here speeding threat e n s p e d e s-
tri an safe ty.
For more resea rch and information on photo enforce-
ment, see:
Case Stutjy 67, Red Light Camera Enforce-
ment, Boulder Colorado. In PE DSAFE: Pedes-
trian S efery Guide and Countermeasure Selection
System, September, 2004 . FHWA -SA-04 -003
U.S. D epartment of Transportation Federal
H ighwqy Administration. Available on line at
ww1JJ.walkinginfo.org/ pedsefe / case_studies2.
ifm?op = L &subop = I &state_name=Colorado.
Case Stuc!J 68, Red Light Photo Enforcement,
West Hol!Jivoo d, California . I n PE DSAFE:
Pedestrzan Safety Guide and Countermeasure
S election Sy stem, September, 2004 . FHWA-
SA-04 -0 03 U.S . D epartment of T ransportation
Federal H ighwqy Administration . Available online
at ww1JJ.1valkinginfo.org/ pedsafe/ case_studies2.
ifm?op = L &subop = I &state_name =Califorma.
102
"Decoy"
Pedestrian Cross-
ing the Street
in Enforcement
Operation.
Enforcement
Operations in
Miami-Dade.
Pedestrian Decoy Operation
City of Miami Beach
How to Develop a Pedestrian Safety Action Plan
Van Houten and Malenfant (2004) conducted a study of driver yielding behavior
at four crosswalks in each of two-an east and west-high crash corridors in the
City of Miami Beach. Police teams were situated at eight selected crosswalks. Each
team included a decoy pedestrian who crossed the street when other pedestrians
were not present, and a spotter who radioed failure to yield violations to other
officers who flagged the violators and gave them a verbal warning (or citation)
and an enforcement flyer.
The police stopped 1,562 motorists
for failing to yield to pedestrians
over the period of a year, with 1,218
of these stopped during the first two
weeks of the program (Van Houten
and Malenfant, 2004). Three hundred
seven citations were issued, of which
188 were given during the first eight
weeks of the program. At baseline,
3.3 percent and 18.2 percent of the
drivers yielded to pedestrians in the
west and east corridors respectfully.
The introduction of the enforce -
ment program at the four sites in
the west corridor led to an increase
in yielding to 27.6 percent during
the first week of the program while
no increase in yielding occurred
at the untreated east corridor. The
introduction of the enforcement
operations in the east corridor led to
an increase in yielding to 28.8 per-
cent in this corridor, while increased
yielding was maintained in the west
corridor. Monthly follow-up data .
indicated that the gains produced
by the program were maintained in
the absence of high levels of police
enforcement with overall yielding rates of 27.8 percent in the west corridor and
34.1 percent in the east corridor during the follow-up data collection (Van Houten
and Malenfant, 2004).
Additionally, police officers in Miami Beach and Miami Springs received training
on pedestrian safety and enforcement activities that have been used to address
a variety of vio lations and behaviors that often lead to collisions between pedes-
trians and motor vehicles (Zegeer et al, 2007).
Cha p ter 5: Selecti n g Safety Sol uti o ns
authorities, law enforcement and community groups in the
planning and development of their photo enforcement pro-
-grams. Some states may not allow photo enforcement in gen-
eral, but may permit it in school zones. Also, in some locations
where photo enforcement is not permitted, citizen advocates
can petition their legislators to permit its use. Photo enforce-
ment provides communities with a highly flexible tool that can
be deployed when and where it is needed for maximum effect.
Most systems also capture data on traffic flow and average
speeds, enabling communities to measure the effectiveness of
the deployments in relation to crash data for the area.
A permanent, fixed photo speed enforcement camera in a
neighborhood will almost never be financially viable, but a
mobile photo speed unit that can be carried in vans provides
a feasible alternative. Such mobile units can provide excellent
citywide coverage for problem areas . In these cases, a vendor
can operate the equipment, but a police officer must review the
photos and approve the citations before they are issued . The
implementation of any photo enforcement program should be
carefully planned, have reasonable and attainable expectations,
and include public input and political support. It should also
emphasize the safety benefits rather than the monetary benefits,
as the public may be against these devices if raising revenue is
emphasized . Alerting the public to the photo speed enforce-
ment effort before it begins is critical to avoid negative publicity.
Visible warning signs should be placed in advance of the cam-
era location before the effort begins so drivers will understand
what will happen. An effective photo enforcement program will
allow for the continuous two-way exchange of information with
the community and have the flexibility to meet changing traffic
safety issues and concerns.
Double Fines in School Zones and Other Special Interest Areas
Strict enforcement of speed laws in school zones and other
locations where pedestrian traffic is high, or crash data suggests
that speeding may be a factor in pedestrian crashes, can improve
the safety for pedestrians and drivers. Along with school zones,
senior centers, park and recreation facilities, college campuses,
hospitals and shopping areas are some of the locations that may
warrant special attention by law enforcement officials to dis-
courage speeding and encourage proper behavior for yielding to
pedestrians who are crossing roadways. A zero tolerance policy
for speeders in these special areas, and even an increase in fines
for drivers who violate the posted speed limit, are potential
approaches.
103
104
Double Fines in School Zones
State of Washington
Ho w to Devel op a Pedestrian Saf ety Acti o n Plan
In 1997, Washington State enacted legislation that doubled the basic fine for drivers speeding in a school
zone . This fine cannot be waived, suspended or reduced. One -half of the revenue generated is directed
into an account managed by the State's Governor's Highway Safety Office (the Washington Traffic Safety
Commission), which is designed to enhance safety in school zones and student transportation. The legis-
lation allows $1.5 million to be spent per biennium, with $1 million for law enforcement and $500,000 for
public education. Funds for law enforcement are available to agencies through an application process .
These funds can be used to purchase equipment-such as radars , computers, patrol cars or motorcy-
cles-that improves safety in school zones or student transportation . The public education funds make
it possible to produce and disseminate products, such as public service announcements, radio and bus
ads, and crossing guard equipment. The funds
have also been used to provide mini -grants
to support International Walk to School Day
celebrations around the state and have paid
for the creation and distribution of the School
Administrator's Guide to Pedestrian Safety and
the School Safety Resource Kit.
Through proactive enforcement, where law
enforcement officers are focusing on school
zone safety, communities have seen reductions
in collisions in school zones. For example, colli -
sion rates in school zones have declined by 23
percent in Bremerton, Washington, and by 13
percent in Tumwater, Washington .
Defining the 3 E '.r: Engineering, Education, and
Enforcement. Sometimes other groups like to add
other E ~ as 1velL· Encouragement, Emergenry
Services, Evaluation.
Building Partnerships and Coordination with Other E's
Developing and implementing a successful education or en-
forcement program cannot be achieved by any one organization
or agency-it takes a team effort. The benefits of effective
partnerships and collaboration include:
•
•
•
•
Strength in numbers .
Additional resources, expertise, and funding .
Well-coordinated and more efficient use of resources .
Better anticipation of program obstacles and potential
solutions.
Identifying all interested or potentially affected parties will help
ensure success . A succe ssful partnership will include:
• Policy and decision makers .
• Engineers and transportation planners .
• Educators (including teachers, principles, school board
Chapte r 5: Selecting Safety Solut ions
members etc.).
• Law enforcement officers and judges.
• Advocates and community representatives.
• Health and safety professionals.
• Transit officials.
• Media.
Some strategies for building effective partnerships include:
• Understand the issues and the purpose of the partnership.
• Seek to interest agencies and encourage cooperation.
• Establish agreed-upon, long-term goals, strategies, and
responsibilities.
• Create achievable short-term goals to show progress and
early successes.
More information on building partnerships and working with
stakeholders is provided in Chapter 2.
Media's Role in Education and Enforcement
All the components of a good education and enforcement
program-creating awareness, alerting the public, and enforcing
safe practices-benefit from media coverage. For enforcement
events, the goal is to garner substantial media attention and edu-
Building Partnerships
Portland, Oregon
105
At the Oregon Department ofTransportation in Portland, OR, a forward-thinking manager brought togeth-
er a diverse coalition of community groups to form a Community and School Traffic Safety Partnership.
Included in the partnership are school boards, neighborhood associations, businesses, nonprofits, elder
advocacy groups, insurance providers, enforcement agencies, and bike and pedestrian advocacy groups.
The coalition implements a wide variety of programs with success, such as an interactive half hour side-
walk pedestrian presentation. Another innovative program is the crosswalk enforcement action, where
the ODOT partners with police enforcement to pull over anyone violating a monitored intersection for half
an hour, during which a representative acts as a pedestrian repeatedly crossing the road. Both drivers and
pedestrians are stopped and given an informational pamphlet and, in certain cases, a citation. This active
enforcement action is performed wherever requested by a community.
The partnered organizations play an active role in the program as well. For example, various senior cen-
ters work closely with representatives from the ODOT to address problem areas and to develop localized
pedestrian maps for use by members and residents. The maps show all points of interest including transit
stops, benches, water fountains, curb cuts, and more, and designate a prioritized route to frequent destina -
tions. Suggestions for revision are solicited from residents themselves, a bilingual explanation of signals is
included, and the maps are distributed at the senior center and by local Meals on Wheels partners. For more
information, contact Sharon White at (503) 823 -7100.
106
Informed members of communities can
talk to media to raise awareness of pedes-
trian safety issues.
How to Develop a Pedestrian Safety Action Plan
cate the public to change behavior, not issue numerous tickets.
If 10 motorists receive tickets and 100,000 people hear about
it, the enforcement effort will have a more significant impact
than if officers issue 100 "tickets and only the recipients know
what happened. The key to a successful campaign is to provide
information before the education or enforcement event occurs
to encourage community support and facilitate positive cover-
age. Without such prior notification, motorists may claim to be
caught by surprise, which can lead to negative publicity.
There are many ways to involve the media. For example:
•
•
Neighborhood groups or community leaders can hold a
press conference to talk about pedestrian safety and tell the
public that they are requesting more enforcement or are
implementing an education campaign.
Organizers can provide the press with packets of informa-
tion about walking and safety statistics. Press packets can
include frequently asked questions to help a reporter ask
the right questions in an interview.
Informed members of the community can be available to
talk to the media. A child who is well-versed in the pedes-
trian problems in the neighborhood can provide an impor-
tant perspective. Hearing a child explain how difficult it is
to cross a street will have a bigger impact than reading a
statistic. Properly educated police and elected officials can
also deliver a powerful message.
The entire community can be made aware of the pedestrian
safety program in a variety of ways to ensure they know what
will happen before the program begins in force. Event organiz-
ers can:
• Publish an article in the local newspaper or in a neighbor-
hood newsletter.
• Send an e-mail to residents.
• Put up speed reader boards so drivers see for themselves
what their speeds are compared to posted speeds.
• Post information signs near where the enforcement or
education effort will occur.
• Post yard signs in their front yards to get the message out.
Participate in media events and community safety fairs.
In ethnically diverse communities, providing safety messages
to the public in various languages and with culturally-relevant
messages will be critical for the success of the effort. Some
safety out-reach efforts may require bilingual staff to provide
the safety message to all targeted groups.
Chapter 5: Selecting Safety So l ut ions
Finding Funding and Support
Successful education and enforcement programs n ee d long-
term funding and support. This can be through local or regional
agency budgets, support and contributions provided by local
businesses or other stakeholders and partners (such as area
hospitals or advocacy groups like Safe Kids), or state and fed-
eral grants. Chapter 6 and Appendix D provide information on
funding strategies and sources for pedestrian projects.
Comprehensive Pedestrian Safety Program
Burlington, Vermont
The Burlington Department of Public Works launched an an -
nual pedestrian safety campaign in the summer of 2006, based
on materials in FHWA's Pedestrian Safe -
ty Toolkit. The campaign included engi-
neering, education, and enforcement
components.
For the engineering component, the
town worked to develop a multi-modal
transportation improvement plan; im-
prove pedestrian access to transit and
to the waterfron t; and facilitate the
development of pedestrian improve-
ments to Cliff Street and other loca-
tions. On the enforcement side, the de -
partment worked with the Mayor and
the Police Department to distribute
educational materials to violators, with
specific information targeted at motor-
ists , cycl ists, pedestrians . Extra enforce-
ment i n the downtown area focused on
bicycle-and pedestrian-related viola-
tions. For the education component, public serv ice announce -
ments were broadcast over radio and television and displayed
on safety slides at the downtown cinema . The Department of
Public Works collaborated with the Mayor, Police Department,
and local advocacy organizations to develop press releases and
hold press conferences highlighting safety initiatives, using
the media to spread the message. Additionally, safety coupons
were designed and distributed for d iscounts on retro-reflec t ive
clothing and other safety products. For more information vi si t:
http://www.dpw.c i.burlington.vt.us/transportation/bikewalk/
safety /.
107
Example FHWA safety campaign
materials are available online at http://
safety.fhwa.dot.gov /local_program/
pedcampaign/ index.htm.
108 Ho w to Develo p a Pedestrian Safety Act ion Plan
Comprehensive Pedestrian Safety Programs
Hamilton Township, New Jersey
From 1998 to 2004, Hamilton Township experienced 23 pedestrian crashes and 6 deaths along the same
corridor. At the end of 2004, the Township began a concerted safety campaign involving education,
engineering, and enforcement solu t ions.
Several low cost measures were taken immediately, including fencing along the highway medians, tem-
porary message signs to pedestrians and drivers, improved intersection markings, countdown signals,
and revised intersection timing. Longer-term solutions were also planned, including median barriers,
sidewalks, and pedestrian overpasses. To educate the public, flyers were distributed at intersections
and to pedestrians crossing at unsafe and unauthorized locations. Presentations were given at schools
and community centers in addition to radio and television messages. Additionally, the city undertook
an aggressive enforcement effort, issuing summonses to jaywalkers rather than warnings . The Police
Department increased traffic enforcement along the route by 600 percent and established a traffic safe-
ty coordinator. The New Jersey Division of Highway Safety helped establish funds for the creation of a
Traffic Safety Un it dedicated to pedestrian and other traffic safety concerns.
From 2005 to 2006, there were two pedestrian crashes, as compared with 10 in 2004 alone. For more
information, contact Chief of Police , Jay McKeen at: jmckeen@townshipofhamilton.com.
Measuring Program Effectiveness
Measuring program effectiveness is important to:
•
•
•
•
Show an outcome that demonstrates that the program met
or exceeded the objectives.
Help determine if the program needs to be adjusted or
changed .
Document and justify the need for continued funding or
program expansion.
Provide guidance for other communities looking to imple-
ment a similar program.
Program measures must relate to the objectives established for
the program, and should include observable phenomena-
things that can be seen and quantified. Outcomes to be mea-
sured could include:
•
•
•
•
•
•
Number of crashes, injuries, and fatalities .
Behaviors of pedestrians (s uch as looking, crossing, and
yielding), and drivers (s uch as speeding and yielding).
Citations issued / enforcement hours .
Number of people walking .
Knowledge, opinions, and attitudes .
Changes in organizational activity/ procedures .
Chapter 5: Selecting Safety Solutions
Pedestrian Safety Demonstration
Miami-Dade County, Florida
A multidisciplinary team took part in a long -term effort to educate
drivers and pedestrians, and enforce laws in high-crash locations and
zones in Miami -Dade County, Florida. Using pedestrian crash data
from 1996-2001, four zones were identified as having abnormally
high pedestrian crash experiences. Based on locational crash charac -
teristics, as well as pedestrian (age , ethnicity) factors, a total of 16 dif-
ferent types of education, enforcement, and engineering treatments
were selected and targeted to reduce pedestrian crashes .
Education strategies included interactive programs, workshops, and
events; brochures, videos, and posters in several languages (includ -
ing Spanish and Creole), and giveaways. The education programs
were targeted at specific audiences (e .g., children walking to school,
older pedestrians, etc.), and materials and communication strategies
were tailored to those groups. For more information on the educa -
tion program targeting children, visit www.walksafe .us . The enforce-
ment effort involved conducting officer training in pedestrian safety
enforcement at the City of Miami Beach Police Department. This en-
forcement program complemented other countermeasures in South
Beach that were implemented during the Miami-Dade Demonstra-
tion project. It also included a Driver Yielding Program that targeted
drivers at crosswalks to try to increase awareness and yielding behav-
iors. The engineering component involved several studies to identify
high pedestrian crash corridors, prioritize locations, and help select
countermeasures . Over $6 .SM in pedestrian safety projects were pro-
grammed or implemented on these corridors as a result.
A before -after study was used with three separate control groups to
evaluate the effects of the combined pedestrian safety program on
pedestrian crashes . A three -year "after" period was used (2002-2004).
Multivariate intervention auto-regressive integrated moving average
(ARIMA) time series analysis was used, along with non-parametric (i.e .,
Mann -Whitney) U-tests to test for statistically significant differences
in pedestrian crash experiences. Results showed that the pedestrian
safety program reduced Countywide pedestrian crash rates by be-
tween 8.5 percent and 13.3 percent, depending on which control
group was used. This effect translated to approximately 180 fewer
crashes each year in Miami-Dade County for the first two years (2003
and 2004) after the study period ended . The greatest reductions were
found in pedestrian crashes among children, where there was a 32
percent reduction in child pedestrian crashes in the four zones, and
109
a 22 percent reduction Countywide. Educational and other measures to reduce crashes involving older
pedestrians showed no effect. A number of lessons learned were identified for future implementation of
such a program by other jurisdictions.
For more information, contact Charlie Zegeer at zegeer@claire.hsrc.unc.edu or 919 -962-7801 .
110
Having good plans and policies in place
to support walking enables safer streets
for pedestrians.
Designing streets with pedestrians in
mind can result in streets that are pedes-
trian-friendly with lower vehicle speeds
(bottom photo) rather than higher-speed
auto-oriented (top photo) designs.
For more information about pedestrianjriend!J
site design, see Georgia's ''Site Design for
Pedestrians" Toolkit athttp://www.dot.state.
ga. us/ DOT/ plan-prog / planning/ prqjects / biry-
cle / ped_jacilities_guide / 1 O _site_design_jor _pe-
destrians.pdj. Other site design resources can be
found in Appendix G.
How to Develop a Pedestrian Safety Action Plan
How and when a program /project is evaluated is determined by
the objectives and activities of the project. It is easier to mea-
sure the success of a program if decisions are made about what
to measure and how/when to evaluate it before implementing
the program. Appendix E provides guidance on evaluating pe-
destrian safety plans; much of this information can be applied
to evaluating pedestrian education or enforcement programs.
Comprehensive Approaches
Successful approaches to improve pedestrian safety usually
involve a comprehensive program that includes elements of en-
gineering, planning, ed uc ation, and enforcement measures. The
sidebars on pages 107 through 109 show some example s.
Policy and Planning Solutions
Over and beyond incorporating features designed specifically
to improve pedestrian safety, there are many aspects of general
street design that result in safer conditions for pedestrians:
General Street Design
1. Speed control-For many pedestrian crashes, speed is an
important factor; high speeds reduce the possibility of
crash avoidance, and increase the likelihood of a severe
injury or fatality. Cities that have made concerted efforts to
reduce pedestrian crashes use speed reduction as a primary
tool. Speed reduction must be a matter of both policy (by
setting lower speed limits) and design. However, simply
lowering speed limits on streets where motorists can go
fast is usually ineffective. Streets must be redesigned to
encourage lower speeds.
2.
3.
Traffic Calming-Local agencie s often develop plans and
polices for using a variety of traffic calming measures for
reducing pedestrian and / or other crash types on local and
neighborhood streets. Such measures include, speed tables,
traffic circles, speed humps, chokers, and chicanes, to break
up long straight stretches of straight streets and to reduce
vehicle speeds and / or reduce cut-through motor vehicle
traffic.
Residential Street Design-Many residential streets built in
the last few decades have been built too wide and without
interruptions for long distances, encouraging higher speeds
than appropriate for streets where children are frequently
expected. Most small children who are involved in a crash
Chap ter 5: Se lec ting Safety Sol ut ions
are hit within a block of their homes. Features of resi-
dential streets that are safe for pedestrians include nar-
row width, on-street parking, tight curb radii, short block
length, buffered sidewalks with street trees, short building
setbacks, and streetlights.
Land Use and Site Design
Land use patterns can have an impact on pedestrian crashes.
Many pedestrian crashes occur in suburban, auto-oriented
locations. One reason is motorists simply do not expect pedes-
trians on some streets, but are much more highly aware of their
presence on streets where pedestrian use is high. Other reasons
include higher d riving speeds in suburban areas and possibly
diminished motorist reaction times or their willingness to slow
and yield to crossing pedestrians. The following land use and
site design techniques can help manage speed and therefore
lower crash rates:
1. Buildings that define streets-Buildings located at the
back of the sidewalk give the motorist sense of enclosure;
buildings set far back, with large parking lots in front, cre-
ate the ill u sion of a wide road which encourages high er
speeds and discourages walking.
2. Mixed-use developmen t-Buildings with retail on the
bottom, hou sing on th e top en courage pedestrian activ-
ity. This includes parking garages, office buildings and fast
food restau rants.
3. Street connectivity-Lack of street-connectivity and
pedestrian connections discourages walking because of
the added travel distance to reach destinations. Long super
blocks also reduce pedestrian crossing opportunities;
midblock crossings should be provided about every 91 m
(300 ft)-the length of a typical urban block.
4. Curb/Parkin g Management-Curb management practices
(such as painted curbs) can be used to regulate parking.
P arking sh o uld not b e p laced between the sidewalk and
a building, as stated previously. The principles of access
managemen t should be extend ed to parking: single lots
serving multiple stores are preferred over single stores each
with its own parking and driveway.
These site design practices n eed to be incorporated in city codes
for future development. Also, many retail outlets such as fast
foo d restaurants are remo d eled or rebuilt about every ten years,
Land Use Policies
State of Pennsylvania
1 11
New land use policies will help rem-
edy future developments but will
not solve the immediate problems
in urban and suburban areas, where
existing land uses do not accom-
modate-much less encourage-
walking or bicycling. Therefore, the
Pennsylvania Statewide Bicycle and
Pedestrian Master Plan includes a
section on retrofitting existing land
uses to serve pedestrians. It provides
guidance on downtown redevel -
opment, "pedestrian izing" existing
retail/office developments, and ret -
rofitting suburban residential neigh -
borhoods, including recommenda-
tions such as:
Maximize pedestrian transit ac-
cess to the site from adjacent
land uses.
Improve the layout of buildings
and parking lots.
Bring destinations closer to
home.
Encourage denser develop-
ment or redevelopment.
Provide sidewalks and street
trees .
Reduce the speed of automo-
bile traffic.
Provide off-road internal path-
way systems.
Provide "pocket" parks and
community green space.
For more information, visit: http://
www.dot.state.pa .us.
112
Curb management (such as painted
curbs to keep cars away from the marked
crosswalk) would help this pedestrian to
better see cars approaching the intersec-
tion. In this case, a curb extension would
also help the pedestrian to better see cars
approaching the crossing.
Traffic signal installations may be the
only solution to enable pedestrians to
cross some busy, multilane streets. How-
ever, signals do not solve all pedestrian
crossing problems and should be used
with caution.
How to Develop a Pedestrian Safety Action Plan
which may present opportunities to implement new site design
requirements to retrofit existing facilities, such as installing side-
walks with a planting strip.
Countermeasures to be Used with Caution
Concerned citizens and elected officials often respond to a
tragic pedestrian crash with a call for an immediate solution.
Among the most commonly requested solutions are a traffic
signal, a Hasher, a pedestrian bridge or underpass, or a marked
crosswalk. While these all can be an effective solution in certain
places, in some instances they are not appropriate or effective.
Trefft c Signals
The primary purpose of a traffic signal is to create gaps in
motor vehicle traffic that otherwise would be hard to find. The
MUTCD warns against the overuse of signals for a variety
of reasons. Used inappropriately, traffic signals may increase
crashes. See MUTCD Chapter 4 for information on signal war-
rants (http://mutcd.fhwa.dot.gov /pdfs /2003 /Ch4.pdf).
Traffic signals can range from $35,000 to $300,000 for one
intersection, if no associated road widening is necessary. Fur-
thermore, resources are needed for annual maintenance of the
signal.
In many cases, the only solution to crossing a busy, multilane
arterial street is to install a pedestrian crossing signal. This is
especially true in locations where there is not another signal
for 0.4 km (0.25 mi) or more in an area with lots of pedestrian
activity.
Traffic signals (with pedestrian displays) are one possible op-
tion to be considered in helping to get pedestrians safely across
busy streets. Adding a traffic signal, however, does not guaran-
tee safety for a pedestrian, since some motorists run red lights
and some turning motorists fail to yield to a pedestrian in a
crosswalk during the WALK interval; also, some pedestrians will
cross against the traffic signals.
Pedestrian Bridge or Underpass
A popular but often ineffective countermeasure is to install a
pedestrian bridge or underpass. These solutions are appealing
because they give the impression of complete separation of
pedestrians from motor vehicle traffic. In theory this is true, but
in practice this rarely occurs for several reasons:
Cha pter 5: Selecti n g Safety So l utions
•
•
•
Bridges and underpasses are so expensive, they cannot be
provided at most locations where pedestrians may want to
cross.
Underpasses are often prone to security concerns due to
low visibility.
The inconvenience of out-of-distance travel is high, up to
305 m (1,000 ft) or more, because of the need to provide
accessible ramps; many pedestrians will not walk this extra
distance and cross at-grade.
To be effective, there has to be a self-enforcing feature
that requires the pedestrian to use the bridge, such as
topography, or fencing along one side of the street or in
the median for several hundred feet on either side of the
grade-separated crossing.
These reasons explain why pedestrian bridges or underpasses
are under-used, and motorists are frustrated when they see pe-
destrians crossing in the vicinity of an bridge or underpass; this
in turn increases the risk to pedestrians crossing at grade.
The high cost of a pedestrian bridge or underpass (from sev-
eral hundred thousand to several million dollars) makes them
impractical for all but a few locations. Many pedestrian crossing
islands with illumination can be provided for the cost of one
bridge; along a corridor with multiple crossing points, the cross-
ing is lands are a more effective use of resources.
Marked Crosswalks without Additional Treatments
Marked crosswalks tell the pedestrian where to cross. For ex-
ample, where sight distance is compromised, it may be desirable
to direct the pedestrian to the location where the site distance is
best. Marked crosswalks also tell the motorist to expect pedes-
trians at a particular location, but motorists on higher-speed
streets frequently cannot see them until it is too late to stop.
Without other safety features mentioned thus far (islands, curb
extensions, illumination etc.), marked crosswalks on their own
do not necessarily increase the security of a pedestrian cross-
ing the street. Zegeer et al. (2005) have completed an exhaus-
tive study on the effectiveness of marked crosswalks, which
can be downloaded at http:/ /www.walkinginfo.org / rd/ devices .
htm#crosl. In general, the following principles apply to the
install ation of marked crosswalks alone (i.e., without other sub-
stan tial pedestrian treatments):
•
•
On two-lane streets, a crosswalk can be marked without
compromising pedestrian safety.
On multilane streets with an average daily traffic (ADT)
P e d estria n bridges s hould be
c o n venient fo r pedestrians (see top
photo); otherwise they will not be
u sed (as in bottom photo).
113
O·····································O
The underp ass in the top photo is
not w ell-lit o r secure. Underpasses
s h ould b e d esigned s o that they are
safe for pedestria n s to use (see b e t-
ter example in bottom photo).
114 How to Develop a Ped estria n Safety Acti on Pl an
Summary of Marked Crosswalk Study (Zegeer et al., 2005)
Ve hi c l e A DT Ve hi c le A DT Ve h ic le A DT Ve h ic le A DT
R oa d way Type < 9 000
(N umb e r of T r ave l La n es
a nd Medi a n Type) ~30 35
mi /h m i/h
2 Lanes c c
3 Lanes c c
Multi-Lane (4 or More Lanes) c c
With Raised Median***
Multi-Lane (4 or More Lanes) c p
Without Rai sed Medi an
-
C =Candidate site for marked cross -
walks .
P =Possible increase in pedestrian
crash risk ma y occur if crosswalk
markings are added without other
pedestrian facility enhancements.
N =Marked cross w alks alone are insuf-
ficient and pedestrian crash r is k
may increase when providing
marked cross w alks alone. Con -
sider using other treatments such
as traffic sig n als with pedestr ian
signals where warranted o r other
substantial crossing improvements
to increase crossing safety.
40
m i/h
p
p
p
N
•
>9000 to 12 0 00 >12 000 -15 0 00 > 1 5 000
S p ee d Limit **
~3 0 35 4 0 ~30 35 40 ~30 35 40
mi/h m i/h mi /h mi /h m i/h mil h m i/h mi/h mi /h
c c p c c N c p N
c p p p p N p N N
c p N p p N N N N
p p N N N N N N N
of up to 15,000 vehicles per day (VPD) and a median or
is land, crosswalk can be marked without compromising
pedestrian safety.
On streets with an ADT over 12,000 (o r 15,000 with a
median) marked crosswalks on th eir own are not recom-
mended; oth er, more substantial, measures are needed to
provide a safe ped estrian crossing.
At locations where crosswalks alone are not appropriate (e .g.,
on multilane roads with ADTs above about 12,000), the study
recommends consideration of more substantial pe d estrian
crossing treatments, su ch as enhanced nighttime lighting, traffic
and pedestrian signals (if warranted), among others. Marked
crosswalks should be given priority where there is an expecta-
tion of regular ped es trian activity such as near a school, park, or
other generator.
As stated in the report, "the results of this study should not
be misused as justification to do nothing to help pedestrians to
safely cross streets. Instead, pedestrian crossing problems and
needs sh ould be routin ely identified, and appropriate solutions
should be selected to improve pedestrian safety and access.
Deciding where to mark or not mark a crosswalk is only one
consideration in meeting that objecti ve" (Zegeer et al., 2005).
T extured and/ or Colored Crosswalks
Textured or colored crosswalks are often requested based on
the assumption that they stand out and are more visible by
motorists. In many cases, the opposite is true: red or gray pavers
are barely visible from afar, and they disappear from sight com-
pletely at dusk or at nigh t . Textured crosswalks are difficult for
pedestrians in wheelchairs or with walkers or canes; th eir efforts
Chapter 5: Selecting Safety Solutions
when crossing the street should not be impeded. If a com-
munity decides to implement colored crosswalks, it is best to
color the pavement around a conventional, high-visibility white
crosswalk; this way it really does stand out and is smooth.
Assessing the Effects of Treatments on Other Road Users
Many pedestrian problems result from auto-oriented designs
that didn't take pedestrian safety into account; for example, add-
ing turn lanes at an intersection without considering the effect
on pedestrian crossing distance. The same principle applies to
pedestrian countermeasures: a solution that benefits pedestrians
at one location may have negative effects on other users of the
street, intersection, corridor or neighborhood. For example,
street diverters to reduce cut-through traffic on a local street
may increase turn movements at an intersection at the edge of
the neighborhood.
Each solution sh ould be evaluated for unintended negative con-
sequences, or consequences that may need further mitigation.
A solution should not be rejected just because it has a negative
impact on other users, nor is a benefit/ cost analysis needed in
every case. A common example is the dilemma associated with
placing median pedestrian crossing islands on commercially-de-
ve loped arterials. The crossing island is typically a safety benefit
to the pedestrian, but may restrict left turns into a driveway or
side-street. Usually, an island can be designed to aid motorists
and pedestrians. At times driveways can be moved or combined
to adequately serve the adjacent land uses. In cases where this
cannot be done, decision makers have to choose between a
higher level of pedestrian safety and accommodating land use
access for motorists or look into other alternatives.
Many of the recommended pedestrian safety improvements
may also have safety benefits for motor vehicle traffic. Common
examples include medians, which have been shown to reduce
motor vehicle crashes, traffic calming that slows traffic (s lower
speeds equate to fewer and less severe crashes), and simplified
intersections that are easier for motorists to negotiate, and right
turn "pork-chop" islands which make it easier to time traffic
signals.
Safety Effects on Other &adwqy Users
Bicyclists
Bicyclists should not be negatively impacted by pedestrian treat-
ments. In general, most designs that make roads safer and more
115
A safe roadway environment will take into
account all modes of travel.
116
Improvements made for the safety of
vulnerable populations (such as clearly
defining the pedestrian path) also benefit
other roadway users.
How to Deve lop a Pedestrian Safety Action Plan
comfortable for pedestrians also benefit cyclists, especially mea-
sures that slow traffic, or that narrow or reduce motor vehicle
traffic lanes to create more space for other users. But certain
countermeasures may impact bicyclists; others are perceived
by bicyclists to be dangerous, but in reality they do not have
negative impacts based on crashes-sometimes it is a matter of
perception.
Pedestrian crash countermeasures that may impact bicyclists
negatively include speed bumps (which are typically only al-
lowed in shopping centers), curb extensions that protrude into
the bike lane (those more than 1.8 m (6 ft] wide), and street
closures with no bicycle access. Countermeasures that should
be considered in the context of protecting bicycle safety include
on-street parking, narrow lanes, curb extensions, and chicanes.
Meeting the Safety Needs of All Pedestrians
Safety improvements should meet the needs of all pedestrians
to the maximum extent possible. Improvements that benefit
young children, older persons, and people with vision, mobility,
or hearing impairments also increase the safety of all pedestri-
ans.
Federal (and some state) laws and regulations spell out what
must be done to accommodate pedestrians with disabilities.
When facilities are provided for pedestrians, they must be ac-
cessible for persons with disabilities unless that is not physically
feasible.
The most current accessible design requirements can be found
at http:/ /www.access-board.gov/. Designing Sidewalks and
Trails for Access, Parts 1 and 2, provide the state of the prac-
tice for applying the American with Disabilities Act and similar
requirements to pedestrian facilities. Find Part one at: http://
www.fhwa.dot.gov/ environment/bikeped/ access-1.htm and
Part 2 at: http://www.fhwa.dot.gov/environment/sidewalk2 /.
Chapter 6: Pro vi d ing Funding
450
400
350
300
250
200
150
100
50
0 --
Federal Spending (in Millions) on
Pedestrian and Bicycle Improvements
• •
1992 1993 1994 1995 1996 1997 1998 1999 2000 2001 2002 2003
Source National Bicycling and Walking Study: Ten Year Status Report, Ociobe< 2004
Chapter 6:
Providing
Funding
Funding is critical to implementation. It can be the enabler for making improve-
ments that reduce crashes, or it can be the barrier that prevents needed improve-
ments from being made. With most state and local governments facing severe budget
constraints, allocating funds to address pedestrian safety issues can be a challenge.
evertheless, some states and urban areas are achieving very low pedestrian crash
numbers in spite of limited funding. The challenge is to figure out how these out-
comes are being achieved and then apply them to states and communities with high
numbers of pedestrian crashes.
Commitment to Safety
Achieving better outcomes always begins with a commitment to safety for all modes.
It should be the number one priority of state and local transportation agencies. Once
this commitment is made, it allows transportation agencies to allocate funds to reduc-
ing all crash types, including pedestrian crashes. Projects that only focus on reducing
congestion or motor ve hicle crashes may jeopardize the safety of pedestrians and
bicyclists.
A simple benefit/ cost analysis is an excellent way to justify and increase expendi-
tures on pedestrian improvements. Most of the improvements that reduce pedestrian
crashes are relatively inexpensive when compared to efforts to reduce motor vehicle
crashes. It costs an agency less, per crash, to reduce pedestrian crashes than motor ve-
hicle crashes. It may not cost the agency anything if it is a policy change or a change in
a design standard that leads to fewer pedestrian crashes. For example, almost all Seattle
arterial streets are designed to a 48 km /h (30 mi /h) design speed, which is the legal
speed limit unless otherwise posted. This is one of the reasons Seattle has one of the
lowest pedestrian fatali ty rates in the nation; Seattle has made a commitment to safety
as the number one priority.
117
''Most of the
improvements
that reduce pe-
destrian crashes
are relative!J
inexpensive when
compared to
efforts to reduce
motor vehicle
crashes. ''
118 How to Develop a Pedestrian Safety Action Plan
Funding Strategies
The fo ll owing funding strategies can be applied to finance p edestrian safety improve-
ments:
•
•
•
•
Routine accommodation in new projects .
Partnerships .
D edicated funds and set asides .
Annual maintenance budget.
&utine Accommodation in N ew Prqjects
Routinely including pedestrian facilities with other roadway improvement projects is
a cost-effective strategy for reducing pedestrian crashes and encouraging more walk-
ing. The construction of good pedestrian infrastructure as part of normal public
and private development and the adoption of good traffic management practices are
known as "routine accommodation." The majority of pedestrian infrastructure is
built in conjunction with other projects: pedestrian crossings are built in conjunction
with the construction of intersections; pedestrian signals are installed in conjunctions
with traffic signals; and most sidewalks in residential neighborhoods are built as part
of private, residential housing construction. The same appli es to traffic management
practices: high visibility crosswalks can be marked after pavement overlays as a matter
of stand ard practice.
Routine accommodation allows for significant improvements over time, even if there
is no special funding available for pedestrian safety improvements. Chapter 5 provides
a list of standardized traffic management and design practices that will reduce crashes
over time. Routine accommodation for new projects does not diminish the impor-
tance of immediately addressing high crash locations, corridors, and other targeted
areas immediately.
Partnerships
Both public works and many private development projects provide partnership op-
portunities for making improvements to increase pedestrian safety in addition to what
might be accomplished through routine accommodation. For example, opportunities
to construct sidewalks can be provided with resurfacing projects; opportunities for
placing utilities underground (and thus eliminating obstructions on sidewalks) can be
found with other projects. There are opportunities to develop partnerships around the
following project types:
Voluntary /No Cost Improvements
Many projects will generate some neighborhood concern or opposition. More often
than not, public and private projects include some pedestrian amenities, supported by
the neighborhood, to build good will. In other cases, there may be a common benefit.
Private developers and other agencies are often willing to make needed pedestrian
Chapter 6: Pro vidi ng Fundi ng
safety improvements, as a safer, more
accessible development is more attractive
to potential tenants or customers.
Required Restoration and Mitigation
Large projects present an opportunity
for significant pedestrian improvements.
For example, a new development may
generate enough traffic to warrant a
signal near a school or other pedestrian
destination . Utility work next to a road-
way or in an abandoned railroad line can
provide an opportunity for constructing
a sidewalk or pathway.
Combined Improvements
Combined improvements involve group-
ing smaller projects with an existing
funded project. Funding improvements
as part of larger projects creates econo-
mies of scale . For example, if there is
a public works project to construct a
co n crete roadway, it may be cheaper to
add construction of sidewalks on nearby
streets instead of building them
as a separate project. It may also
be advantageous to provide fund-
ing for a spot improvement such
as a rnidblock crossing where
pedestrians are expected to cross.
Not only are costs reduced when
two types of work are combined
into one project, but other advan-
tages include re duced impact to
traffic, residents, and businesses.
D edicated Funds and Set Asides
Partnership Opportunities: Universities
Chapel Hill, North Carolina
119
The University of North Carolina at Chapel Hill is centered in
the heart of downtown. The University currently maintains
an extensive network of sidewalks that are internal to UNC
property. In addition, the UNC Department ofTransportation
and Parking makes periodic recommendations to the Town
about UNC off-campus sidewalk needs . These projects do not
fall under University jurisdiction but impact pedestrian traffic
(mostly UNC students and employees) going to and from the
University. Some of these off-campus projects have evolved
into "joint projects" financed by both entities.
One such project included an investigation of pedestrian
safety risk locations on and around campus performed by
the University of North Carolina Chancellor's Pedestrian
Safety Committee (UNC Pedestrian Safety Committee), work-
ing with the University community, the Town of Chapel Hill,
and the North Carolina Department ofTransportation. Based
on the results of the study, this group was able to improve
signage, modify roadways and crosswalks, increase enforce-
ment, and create a long-term plan for pedestrian safety on
the 740 acre campus.
For more information, visit: http://townhall.townofchapelhill.
org/planning/bikeped/bikepedplan.htm. O ........... :
0
Some states, MPOs (Metropolitan Planning Organizations) and local governments
have set aside dedicated funds for pedestrian and / or bicycle improvements. Set asides
are either a percentage of a larger fund; for example, a percentage of Federal funds
(beyond the mandated Federal Enhancement fund ) for pedestrian and / or bicycle
projects; or set asides with an independent funding source; typical examples include
developer funds (funds deposited by developers into a centralized fund or escrow
account for future use), resource funds (taxes on extracted natural resources such as
gravel or oil), an d real estate excise funds.
120 Ho w to Devel op a Ped estrian Sa f et y Act io n Pl an
While dedicated funds and set asides are possible funding sources, they should not
be a substitute for routine accommodation. For example, funding for shoulder and
sidewalk improvements sh ould be routine practice and not p aid for through set aside
funds. In general, changing policy to include pedestrian improvements in all programs
and projects will produce more funding than set asides.
Annual Maintenance Budget
Existing annual maintenance budgets can be u sed to make small but important pedes -
trian improvements. For example, limited budgets for painting marked crosswalks can
be focused around schools and high crash lo cations. Crosswalks can be widened or
changed to high-visibility markings when they are schedul ed to be repainted. Cross-
walk signs scheduled for replacement can be u pgraded to th e brighter fluorescent
yellow-green signs that have been adopted by th e MUTCD as an option for pedestrian
and bicy cl e warning signs .
Dedicated Funds
State of Wisconsin
The Wisconsin Department of Transportation currently funds sidewalks and other
pedestrian facilities through many different state and Federal programs. Since 1990,
WisDOT has included sidewalks in construction projects along a State Trunk High-
way (STH) if the local municipality agrees to pay 25 percent of the cost and agrees
to accept responsibility for future sidewalk repair, maintenance, and spot replace-
ment. WisDOT will pay the full cost to replace existing sidewalks when they must
be replaced due to WisDOT action (i.e . roadway-widening projects that require the
removal of sidewalks). WisDOT administers Federal funds for local road projects
that are eligible to include sidewalks and other pedestrian facilities. These projects
generally require a 20 percent local match while Federal funds cover the remaining
80 percent of expenses . Through General Transportation Aids (GTAs), WisDOT helps
fund local sidewalk construction and replacement work as well as all other pedes -
trian -related work, such as crosswalk painting and crossing signal installation, on a
partial reimbursement basis .
Another major source of funding for pedestrian projects is the Statewide Multi modal
Improvement Program (SMIP). This includes the following components:
An enhancement program for local and state highway enhancements.
A surface transportation program.
A surface transportation program discretionary (STP -D).
An urban surface transportation program (STP-U).
A congestion mitigation and air quality program (CMAQ).
A hazard elimination program.
Interstate maintenance.
National highway system funds .
A highway bridge replacement and rehabilitation program .
A transportation and community and system preservation pilot program .
For more i nformation , visit: http://www.dot.wisconsin .gov/projects/state/ped2020.
htm.
Chapter 6: Prov id i ng Fund i ng
Revising Funding Selection Criteria
State of New Jersey
121
In New Jersey 's Statewide Bicycle and Pedestrian Master Plan , the section on "Implementing the Plan "
includes a list of funding strategies. One such strategy involves working through Metropolitan Planning
Organizations to revise Transportation Improvement Program (TIP) project selection criteria to promote
bicycle and pedestrian projects and ensure that an adequate percentage of transportation funding is
used for pedestrian and bicycle transportation facilities .
Another strategy involves partnering with various agencies: the Office ofTravel and Tourism within the NJ
Commerce and Economic Growth Commission to provide grants in support of walking tours and events;
the NJ Department of Law and Public Safety to make use of NHTSA (Section 402) funds for pedestrian
program activities that deal with safety and enforcement; and the NJ Department of Environmental Pro -
tection to pursue funding sources for trails to augment existing National Recreational Trails and Green
Acres funding.
The plan also states that counties are responsible for routinely funding pedestrian improvements and
incorporating incidental improvements into roadway projects . Municipalities are to dedicate funds for
independent pedestrian projects and establish funding sources for pedestrian improvements related to
roadway projects (land use/recreation fees, general funds, etc.).
For more information, visit: http://www.bikemap.com/RBA/.
Funding Criteria
State and local governments typically use multiple funding sources for transporta-
tion projects, from Federal grants to gas taxes to general tax re ve nues. These so urces
often have funding criteria that determine what projects are eligible. Funding criteria
are reviewed and update d periodically; they can be rewritten to increase funding for
pedestrian safety projects. There are two ways these so urces can be levied to make
pedestrian sa fety improvements: 1) The funding criteria should give higher scores to
projects that include pedestrian safety elements; and 2) The funding criteria should
allow for good pedestrian projects (those likely to reduce crashes) to compete for the
funding. Some states have constitutional provisions banning the use of gas taxes for
anything but highway projects; but the definition of "highway" should include pedes-
trian facilities such as sidewalks.
Major Funding Sources
Federal funding for pedestrian improvements ha s increased dramatically in the last 12
or so years . Prior to the 1990s only a few million dollars a year of Federal funds were
being invested in bicycle or pedestrian facilities. While the energy crisis of the early
1970s had spawned new interest and some modest government initiatives to make
improvements, very little money from the government at any level was invested in
bicycle and pedestrian facilities. Likewise, the outdoor recreation industry and business
community in general provided ve r y little funding for facilities, planning, programs,
or organizational develo pment. Throughout the late 1970s and 1980s, the largest
122
For the most current
FHWA Program
Guidan ce, visit th e Web
site: http:// 1vw1JJ.jh1JJa.
dot.go v/ environment/
bikep ed/ g11idance.htm.
The full memo can be
vie1JJed at http://
www.Jhwa.dot.gov/
environment/ bikeped/
memo.htm.
How to Deve lop a Pedestrian Safety Action Plan
amounts of funds for bicycling and walking were invested by state and local parks
agencies building multi-use trails; however, even these levels of investment were very
small compared to what is happening today.
Federal Funds
Transportation Funds
The Safe, Accountable, Flexible, Efficient Transportation Equity Act-A Legacy for
Users (SAFETEA-LU), passed in August 2005, authorized $286.4 billion in Fed-
eral gas tax revenue and other Federal funds over five years for all modes of surface
transportation, including highways, bus and rail transit, bicycling, and walking. Walk-
ing and bicycling improvements are not only eligible to receive funding from most of
the transportation funds made available by SAFETEA-LU, but "shall be considered,
where appropriate, in conjunction with all new construction and reconstruction of
transportation facilities, except where bicycle and pedestrian use are not permitted"
(23 U.S.C., §217 (g) (1)).
In a February 1999 Guidance memo (s till in effect), FHWA stated,
'We expect every transportation agenry to make accommodation for birycling and walking
a routine part of their planning, design, construction, operations and maintenance activi-
ties ... Birycling and walking ought to be accommodated, as an element of good planning,
design, and operation, in all new transportation prqjects unless there are substantial safety
or cost reasons for not doing so .... Even where circumstances are exceptional and birycle use
and walking are either prohibited or made incompatible, S fates, MPOs, and local govern-
ments must still ensure that birycle and pedestrian access along the corridor served ry the
new or improved facility is not made more difficult or impossible . Maintaining access to the
transportation .rystem for nonmotorized users is not an optional activity" (FHWA, 1999).
This memo (FHWA, 1999) also spelled out planning requirements for nonmotorized
facilities . "States and metropolitan areas (with populations of more than 50,000) are
required to plan for the "development and integrated management and operations
of transportation systems and facilities (inclu ding pedestrian walkways and bicycle
transportation facilities) that will function as an intermodal transportation system ... "
(based on 23 U.S.C., §13 4 (a)(3) and 23 U.S.C., §135 (a)(3)).
Non-Transportation Funds
Outside of the Federal transportation programs there are a wide range of other
Federal funds that can be used for walking facilities. Community Development Block
Grants through the Department of Housing and Urban Development (HUD) are
a likely source of funds for community-based projects such as commercial district
streetscape improvements, sidewalk improvements, Safe Routes to School, or other
neighborhood-based walking facilities that improve local transportation or help
revitalize neighborhoods. The National Transportation Enhancements Clearinghouse
has prepared a useful Technical Brief: Financing and Funding for Trails that cites over
Chapter 6: Providing Funding
Funding Examples from around the Nation
Creative Local Partnerships
• Selling bricks for local sidewalk projects, especially those in historic areas or on downtown
Main Streets, is increasingly common. Donor names are engraved in each brick, and a tre -
mendous amount of publicity and community support is purchased along with basic con-
struction materials. Portland, Oregon's downtown Pioneer Square is a good example of such
a project.
A pivotal 40-acre section of the Ice Age Trail between the cities of Madison and Verona,
Wisconsin, was acquired with the help of the Madison Area Youth Soccer Association . The
soccer association agreed to a fifty year lease of 30 acres of the parcel for a soccer complex,
providing a substantial part of the $600,000 acquisition price.
The City of Phoenix partners with school boards to provide funding for the Safe Routes to
School program . A part of the funding is a result of a grant from the Governor's Office of High-
way Safety; $27,000 for additional police enforcement at schools and brighter safety vests
for crossing guards. The Maricopa Association of Governments (MAG) has partnered with
Phoenix to expand the school crossing guard training across the entire metropolitan area.
Any community can adopt the Phoenix School Safety program if there is the political will to
fund the program elements and devote the resources to school crossing safety. For more on
this example, see: http://www.iwalktoschool.org/award_app_template.cfm?ID=l 96.
In Chapel Hill , North Carolina, localized requests can be granted through a public improve-
ment petition and assessment fee alternative when neighborhoods support the construction
of a sidewalk in their area and are willing to be assessed for all or part of the project cost.
Dedicated Funding From State Transportation Revenues
Since the mid-90s, California Highway Patrol (CHP) has been awarded pedestrian safety cor-
ridor grants through the State Office ofTraffic Safety (OTS). The CHP uses a formula to assess
and rate the most severe corridors in the state in terms of crashes, fatalities, and injuries. The
OTS typically awards two grants per year spanning over a 12-month period in an amount
of$ 100,000. Typical goals are a 10 to 15 percent reduction in crashes and a 5 to 1 O percent
reduction in fatalities and injuries. Since inception, favorable results have been recorded
with the program expanding each year. Ginny Mecham (GMecham @chp.ca .gov) and Oph -
elia Torpey (OTorpey@chp,ca.gov) can both be reached at 916-657-7222 for more informa-
tion about this program.
In Indiana, motorists are paying extra for special license plates that benefit greenways, open
space, parks, and trails. In 1995about$1 .9 million was netted from sale of 75,740 plates . The
plates cost an additional $35, of which $25 goes to the Indiana Heritage Trust. Maine and
Florida use similar license plate fee add-ons for conservation, parks , and bicycle and pedes -
trian program funding .
By constitutional amendment, Oregon dedicates one percent of state gas-tax revenue to
providing improvements for bicycling and walking on state -managed highways. Michigan
also has a one percent law.
123
124 How to Develop a Pedestrian Safety Action Plan
thirty Federal and national funding sources that could be used to help fund bicycling
and walking facilities and/ or programs, especially trails: http:/ /www.enhancements.
org.
State and Local Funds
States typically raise revenue for highway and transportation infrastructure through a
state motor-vehicle fuel tax and/ or vehicle licensing fees. Similar to the Federal legisla-
tion, laws in many states make most pedestrian programs eligible for funding. In some
states, use of funds may be limited to improvements on state owned and operated
facilities.
Some examples of revenue streams used by local communities to improve conditions
for pedestrians include: special bond issues, dedications of a portion of local sales
taxes or a voter-approved sales tax increase, and the use of the annual capital improve-
ment budgets of Public Works and/ or Parks agencies.
Private Sector Funds
Foundations
A wide range of foundations have provided funding for walking projects and pro-
grams. A few national and large regional foundations have supported the national
organizations involved in bicycle and pedestrian policy advocacy. However, it is usually
the regional and local foundations that get involved in funding particular pedestrian
projects. These same foundations may also fund statewide and local advocacy ef-
forts. The best way to find such foundations is through the research and information
services provided by the ational Foundation Center. They maintain a huge store of
information including the guidelines and application procedures for most founda-
tions as well as their past funding records. They can be reached online at: http:/ /www.
fdncenter.org.
Developer Funded Projects
In some cases, developers are required to provide funding for roadway improve ment
projects that will build sidewalks, walkways and trails. In other cases, developers are
required to build off-site improvements, largely in response to master plans or stipula-
tions on their development. While in the latter case, they may not be providing fund-
ing to the agency to build the project, the result may be the sa me.
See Appendix D for a list of these and other funding sources.
Chapter 7: Creating the Pedestrian Safety Action Plan
Chapter 7:
Creating the
Pedestrian Safety
Action Plan
Implementing changes to reduce pedestrian crashes requires an action plan that takes
identified countermeasures and puts them into a practical and achievable strategy
that allows progress to be measured over time. Creating a pedestrian safety action
plan is the culmination of effective stakeholder involvement, problem identification,
and prioritization of solutions. It can be thought of as going from the "where" to the
"what" to the "how."
The quality and effectiveness of an action plan does not depend on its length or
depth. The key is to come up with a plan that effectively focuses resources on making
the changes that reduce the greatest number of crashes. Short, straightforward, and
well thought out plans are the most easily implemented. Appendix I contains a check-
list of things to consider when developing a safety action plan.
A pedestrian safety action plan should incorporate the following steps:
Step 1: Define Objectives.
Step 2: Identify Locations.
Step 3: Select Countermeasures.
Step 4: Develop an Implementation Strategy.
Step 5: Institutionalize Changes to Planning and Design Standards.
Step 6: Consider Land Use, Zoning and Site Design Issues.
Step 7: Reinforce Commitment.
Step 8: Evaluate Results.
Step 1: Define Objectives
The key to a successful pedestrian safety action plan is to clearly state its purpose at
the very beginning. In addition to the general goal of improving pedestrian safety,
an agency should define specific and measurable objectives that can later be used to
evaluate the level of success of the program.
125
'' Implementa-
tion requires the
ongoing com-
mitment of an
entire transpor-
tation agency.
Momentum
will on!J be
achieved over
time through con-
stant attention
and action. ''
126 How to De velop a Pede stri an Safety Action Pl an
Explicit goals of a pedestrian safety action plan include a target percentage reduc-
tion of pedestrian crashes in defined locations or areas. More specifically, it ought to
be stated what types of pedestrian crashes shall be reduced (walk to school, multiple
threat crashes, etc.).
While the action plan typically emphasizes safety goals of reducing crash frequency or
severity (of certain types of crashes in specific areas), the p lan may also include more
general objectives such as increased pedestrian activity or enhanced walkability of a
community.
Step 2: Identify Locations
Chapters 3 and 4 discuss how to use crash and other data to identify where improve-
ments need to be made and provide guidance on how to
organize and prioritize locations . Using this information, the
Implementation Plan
Example
Oakland, CA
The Oakland Pedestrian Master Plan
includes a chapter which identifies im -
plementation policies, priority projects,
staffing needs, and funding sources
to ensure that pedestrian projects are
managed, funded, and implemented.
The plan specifies five goals to promote
Oakland as a walkable city, includ i ng :
pedestrian safety, access, streetscaping
and land use, education, and implemen -
tation. General plan policies are listed
to support each of these goals. The sec -
tion also includes 20 years of priority
projects to improve safety, access , and
streetscaping for pedestrians in the City
of Oakland. Projects are prioritized in
two phases: projects to be completed
within 1 to 5 years and projects to be
completed within 6 to 20 years.
For more information, visit: http://
www.oaklandne t.com/government/
pedestrian/index.html .
first step in writing an action p lan is to compile lists of actual
locations. High crash or high-risk locations should be orga-
nized into four categories:
1. Spot locations.
2 . Corridors.
3. Targeted areas (including neighborhoods).
4. Entire jurisdictions.
Step 3: Select Countermeasures
Chapter 4 provides guidance on how to identify and priori-
tize countermeasures to address different types of crashes.
Using this information, the third step in completing an action
plan is to identify engineering, educational, and enforcement
countermeasures that can be implemented over time . Specifi-
cally:
1. For each high crash location, create a list of appropriate
countermeasures based on the collision history and local
conditions; include everything from simple measures
such as spot speed enforcement, to more complex mea-
sures such as installing a new traffic signal.
2. For each high crash corridor and neighborhood/targeted
area, identify needed countermeasures; for example, by
reorganizing all the bus stops along a corridor, it may be
possible to direct pedestrians to signalized crossing loca-
tions and away from crossings at uncontrolled intersec-
tions.
3. For all locations, identify countermeasures that will be installed everywhere as a
matter of "routine accommodation" (discussed in Chap ter 6). Chapter 5 provides
Chapter 7: Crea t ing the Pedestrian Safety Action Plan
lists of highly effective countermeasures that should be incorporated into agency
design manuals and routinely applied to all public and private projects.
Step 4: Develop an Implementation Strategy
The fourth step in creating an implementation plan is to identify "how" improvements
will be made. This requires commitment of the entire agency, not just one or two
people focusing on pedestrian safety. It requires public involvement and political will
(Chapter 2) and agency resources (Chapter 6). It can also involve phasing and making
use of temporary measures (Chapter 4).
Timing as an Implem entation Strategy
Critical to implementing an action plan is maintaining ongoing, continuous progress.
Small, immediate changes that are highly visible create the momentum and support
needed to make the more costly and substantive changes that require more time.
Proposed improvements identified in Step 3 of the plan should be divided into three
categories: simple measures, moderately complex measures, and complex measures.
More complex measures may require more time, money, and coordination among dif-
ferent departments and agencies.
Simple, moderately complex, and complex countermeasures will require different time
lines . All treatments can begin immediately and continue into the future in parallel.
The improvements requiring the least amount of time and resources will likely be
completed first, and those that require the most will be completed later as resources
allow.
This approach also helps to address liability concerns. While no agency can be ex-
pected to address all issues at once, an agency must be able to demonstrate that it has
a well-conceived and systematic implementation plan for making improvements over
time.
The timing approach that divides improvements into simple, moderately complex,
and complex measure s should be done within the context of addressing high crash
locations, corridors, and neighborhoods (or places with high crash potential). Some
examples include:
1. A simple strategy may propose that over a three-year period, all school zone
signs will be upgraded, starting with high crash locations, corridors and neigh-
borhoods; new crosswalks and spot police enforcement may also be simple
strategies.
2. A moderately complex strategy may be to upgrade lighting at unmarked cross-
walks over a six-year period, starting with high crash locations, corridors, and
neighborhoods /targeted areas; other moderately complex solutions may be
signal changes, retiming, roadway restriping, or institutionalizing safety education
programs in schools.
127
128 Ho w t o Develo p a Pedestr ian Safe ty Act ion Pla n
Timing as an Implementation Strategy
The following examples are case studies from PEDSAFE that each deal with countermea-
sure implementations ranging from simple to complex:
0 Simple Solutions:
Radar Trailers in Neighborhoods
For the past ten years , residents of Bel-
levue, WA have been able to request city-
owned portable radar trailers to target
excessive speeds along corridors and in
neighborhoods. The trailers have resulted
in average speed reductions of 4.8 to 8.0
km/h (3 to 5 mi/h), are very popular, and
cos t relatively little .
. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 0
0 Moderately Complex Solutions:
Traffic Calming
In an effort to improve the safety of neigh-
bo rhood children going to and from
school and reduce vehicle speeds, Cam-
bridge, MA implemented several traffic
calming measures along Granite Street,
including curb extensions, a raised cross -
walk, and a raised intersection. The 85th
percentile motor vehicle speed was re-
duced from 28 mi/h to 45 to 38 km/h (24
mi/h) after the improvements .
. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 0
0 Complex Solutions:
Area Revitalization
Wall Street in Asheville, NC is an aestheti-
cally re-designed downtown center of eco-
nomic activity. What once originated as a
d elivery alley has now been transformed
into a walkable and livable streetscape
conducive to pedestrian activity on wide
sidewalks. Average vehicle speeds are
below 32 km/h (20 mi/h) on the adjacent
one-way street.
: ................................................................. 0
Chapt er 7: Creating the Pedestrian Safety Action Plan
3. A complex strategy may be to reconstruct major intersections over a ten-year
period, again starting with high crash locations, corridors, and neighborhoods/
targeted areas; others may include acquiring right-of-way, realigning roadways, or
revitalizing areas.
Built into this approach is the concept of phasing. For example, a high crash intersec-
tion may initially only get new ladder style crosswalk markings and a temporary me-
dian island or warning signs, with more complex measures (such as the installation of
a traffic signal with pedestrian signals or a roadway narrowing treatment) to be added
later when funding becomes available. This approach also allows for temporary im-
provements such as painted curb extensions that can be installed as a low cost strategy
until funding can be found for permanent curb revisions .
Using the list of effective measures from Chapter 5, agencies can develop a matrix
or other system of organization to provide an easy and effective way to set program
objectives and track simple, moderately complex, and complex measures over time.
Measures listed in an action plan will vary somewhat based on local conditions, crash
patterns, and priorities; state and local agencies are also likely to focus on different
measures.
Step 5: Institutionalize Changes to Planning and Design Standards
Design and traffic management practices that can lead to a reduction in pedestrian
crashes should be incorporated into all appropriate planning, design, and maintenance
manuals as well as standard specifications. This is referred to as institutionalization. It
ensures that good design will automatically occur with all future agency projects and
programs as a matter of routine accommodation. It provides the basis for installing
countermeasures such as marked crosswalks and pedestrian signals at all signalized
intersections. However, it is not always enough to have the best standards in the cor-
rect manuals; continued training may be necessary to ensure that all responsible parties
understand the standards and interpret and apply them consistently and accurately.
Appendix F provides a list of recommended publications that address pedestrian poli-
cies and designs. It also provides a list of key policy and design issues that should be
addressed first if pedestrian crashes are to be reduced. Institutionalizing good design
and traffic management practices for pedestrians may take some time, some issues
may be controversial, and it may require several iterations to complete all the changes.
However, it is one of the most important and effective ways to reduce pedestrian
crashes over time and should be vigorously pursued.
It is important to be aware of problems that may occur during project implemen-
tation, construction, or maintenance that may lead to a pedestrian crash if certain
precautions are not taken. For example, closing sidewalks during a sidewalk repair or
maintenance can cause pedestrians to be forced to walk in the travel lane or to cross
the street to use the sidewalk on the other side. Pedestrians should never be forced to
walk in the travel lane unless the lane is barricaded off and the rou te is made to be ac-
cessible. Construction zone provisions that accommodate pedestrian safety should be
an important part of the new policies and practices adopted (institutionalized) by the
1 29
130
For more information
on thes e two plans, visit
the site http:// 1vww.dot.
state.fl.us / safery /Trans-
5 aJEng / strategicpland-
ocs / Strategic%20H1ry %
205 afery %20Plan %20
5-8-03pdf.
How to Develop a Pedestrian Safety Action Plan
Examples of Comprehensive Plans
Plan Components of the Florida State Highway Safety Plan
The Florida State Highway Safety Plan includes the following elements:
1. Identify high pedestrian crash corridors or areas .
2. Analyze corridors and areas of pedestrian crash patterns and causal factors.
3. Apply multi modal level of service analysis to supplement crash data.
4. Implement pedestrian education programs.
5. Set prior ities based on crashes, percentage of walkers, etc.
6. Include sidewalks in all applicable new construction, widening, and resurfac-
ing projects (on and off-system).
7. Implement traffic calming strategies.
8. Increase enforcement of pedestrian laws.
The Washington D.C. Pedestrian Safety and Accessibility Program
The Washington D.C. Pedestrian Safety and Accessibility Program is an example of
a comprehensive pedestrian safety program. The primary goal of the program is to
reduce pedestrian fatalities and injuries. The secondary goals of the program are to
increase walking trips and transit use while achieving reductions in motorized trips.
The program features four main categories of strategies, including: Networking and
Coalition Building; Education; Engineering, Planning, and Design; and Enforcement
and Regulation.
The Networking and Coalition Building component involves coordination among
numerous agencies, including the District Department of Transportation, the De-
partment of Motor Vehicles, the Department of Health, the Department of Public
Schools, Washington Metropolitan Area Transit Authority, the Metropolitan Wash-
ington Council of Governments, and the Metropolitan Police Department.
The Education component includes increasing outreach and awareness of pedes-
trian safety and accessibility issues, the provision of educational materials in English
and Spanish, the preparation of a toolkit of resources and lessons for schools, and
participation in the "International Walk to School Day:'
The Engineering, Planning, and Design component includes targeting high-risk loca-
tions; improving data collection, analysis, and problem identification; deploying the
necessary engineering countermeasures; adopting Pedestrian-Oriented Develop-
mental Regulations; integrating pedestrian accommodation issues into the planning,
design, and approval processes; and advocating for the construction of light rail.
The Enforcement and Regulation component of the program involves targeting
enforcement zones; enforcing existing motorist, bicyclist, and pedestrian laws; re-
viewing existing motorist, bicyclist, and pedestrian laws and advocating for stiffer
penalties; pursuing professional training and education; advocating for innovative
policing (officers on bikes, horses, and skates); reviewing right-turn-on-red and
left-turn regulations; and enforcing harsher penalties for speeding, especially in
school areas.
Chapter 7: Creating the Pedestrian Safety Action Plan
agency. To prevent causing problems in work zones, adequate signi ng and / or provi-
sions must be made to direct pedestrians to safe paths and / or to provide safe street
crossings to sidewalks on the other side of the street. A good resource on this topic is
Chapter 13 in the Trefft c Control D evices Handbook (Pline, 2001 ).
For purposes of an implementation plan, an agency must commit to reviewing and
revising its planning and design guidelines and specifications. Using the information in
Chapter 5, the agenc y should list the design and policy changes that need to be incor-
porated into its documents and create a time line for completing the changes.
Step 6: Consider Land Use, Zoning, and Site Design Issues
As noted in Chapter 1, there is a direct relationship between land use and pedestrian
safety. Land use affects motorist speed, trip frequency, and behavior. It also affects
pedestrian trip frequenc y and behavior. Communities that have been successful in
implementing various land use, zoning, and site design regulations have often been
successful in reducing their number of pedestrian crashes. Land use and development
patterns should encourage p edestrian trips. Provisions should be created for pedes-
trian facilities, and developers should be required to provide pedestrian infrastructure
(e.g., sidewalks) along roads in new developments.
While it is recognized that transportation agencies, especially those at the state level,
may have a limited ability to directly affect land use, zoning, and site d esign, there is
a very direct relationship between land use and transportation planning. New roads
open up new areas for development and new development creates demands for new
road s. Furthermore, planning and zoning departments and those agency functions
involved with reviewing and approving private and public developments should be
thoroughly involved in the process to promote pedestrian-friendly and safe infrastruc-
ture and roadway designs. Effective stakeholder participation is one way that broad
support for changes to land use policies might be built during the pedestrian safety
planning process.
Chapter 5 lists some of the most highly effective land use, zoning, and site design
measures for reducing pedestrian crashes and creating a more pedestrian-friendly
walking enviro nment. For purposes of an implementation plan, an agenc y sho uld
recognize the importance of land use and commit to working with the appropriate
parties in implementing some or all of the measures listed in Chapter 5.
Step 7: Reinforce Commitment
Implementation requires the ongoing commitment of an entire transportation agency.
Momentum will only be achieved over time through constant attention and action.
There are many things an agency can do to achieve ongoing commitment to pedes-
trian safety. An agency should choose the strategies that work and incorporate them
into its implementation plan. The following is a short list of strategies used by various
transportation agencies in communities that have been successful in reducing pedes-
trian crashes over time:
131
132
•
•
•
•
•
How to Develop a Pedestrian Safety Action Plan
Provide ongoing internal training to ensure that designs do not inadvertently
impact pedestrian mobility and safety.
Provide ongoing external training to help the public focus on changes that will
improve pedestrian safety.
Have transportation agencies write Requ ests for Proposals (RFPs) that require
appropriate pedestrian expertise.
Institute an award system to acknowle dge good projects that provide safer condi-
tions for pedestrians.
Work cooperatively with the Health Department on pedestrian safety research
or education programs.
Step 8: Evaluate Results
A successful pedestrian safety plan must contain a mechanism to evaluate results. This
ensures that implemented countermeasures are effective in reducing crashes and im-
proving safety and helps ensure future funding opportunities if the plan is perceived
as a success. In order to perform a thorough evaluation, the specific objectives of the
Pedestrian Safety Action Plan need to be defined early-o n in the process. Given lim-
ited resources, it is critical that the most effective countermeasures are identified and
pursued when prioritizing improvements. Most communities that fail to reduce pedes-
trian crashes do so not because of a lack of funds, but because they do not implement
the right countermeasures and make the right changes to agency design and manage-
ment policie s. This m ay be becaus e they fail to continually evaluate the results to see
if their efforts are actually reducing crashes. Evaluation means that implementation
plans are not static documents-they should change over time as various crash coun-
termeasures are tried and evaluated.
A key prerequisite to any evaluation process is to quantify the before conditions and
track changes in the after condition. The data collection efforts discussed previously
in Chapter 3 ought to be maintained throughout the implementation of the pedestrian
safety plan. Appendix E elaborates on specific evaluation techniques .
Combining a record of successful projects is very helpful in showing progress over
time . Good safety plans will include a comprehensive documentation of successful
projects or institutional changes. It is also important to note that in so me cases, the
number of p edestrian crashes may not go down due to the fact that pedestrian activity
and access has been increased. In these instances, the rate of pedestrian crashes may
have decreased, and a well-documented evaluation of results is needed to provide the
most accurate measure of success.
References
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Equity Act: A Legacy for Users (SAFETEA-LU). Available online at: http://www.
fbwa.dot.gov / sa fetealu /.
Federal Highway Administration, Section 402 Highway Safety Funds. Available online
at: http://safety.fbwa.dot.gov/ state_program/ se ction402 /.
Federal Transit Administration, Grant Programs. Available online at: http:/ /www.fta.
dot.gov /25_ENG_HTML.htm.
Feet First Pedestrian Advocacy. Available online at http://www.feetfirst.info/.
Maryland Pedestrian and Bic ycle Safety Education Program. Available online at
http://www.rockvillemd.gov/ recreation /bicycling/ education-program.htm.
National Transportation Enhancements Clearing house. Available online at: http://
www.enhancements.org/.
Pedestrian and Bicycle Crash Analysis Tool. Available online at http:/ /www.
walkinginfo.org/pc/pbcat.htm.
Street Design Guidelines. Available online at http:/ /www.walkable.org.
The Facts: Impaired Pedestrians. Available online at http://www.nhtsa.dot.gov/
people / outreach/ safesobr/17qp/impaired.htrnl .
Traffic Calming Information. Available online at http:/ /www.trafficcalming.com.
University of Kansas Community Toolbox. Available online athttp://ctb.ku.edu.
U.S. Access board Web site . Available online at http://www.access-board.gov /.
U.S. Census Bureau Web site. Available online at http://www.census.gov /.
Victoria Transport Policy Institute. Available online at http:/ /www.vtpi .org/tdm/
index. php#incen rives .
Victoria Transport Policy Institute Online TDM Encyclopedia. Available online at
http://www.vtpi.org /tdm /.
Re fe ren ces
Virginia Tech On-line Toolbox, "Partnerships and Participation in Planning." Available
online at http://www.uap.vt.edu /cdrom /.
Walk to School Day International Award Applications. Available online at http://
www.iwalktoschool.org/ award_app_template.cfm?ID=l 96 .
Other Research Documents
Federal Highway Administration, Canadian Research on Pedestrian Safety, McLean, VA,
December 1999b. Available online at http:/ /www.hsrc.unc.edu/pdf/pedbike/99090.
PDF.
Federal Highway Administration, FHWA Stucfy Tour for Pedestrian and Biryclist Sefety in
England, Germaf!J, and the Netherlands, Report No. FHWA/PL-95/006, Washington, DC,
1994.
Federal Highway Administration, Pedestrian /Biryclist Sefety Resource Set (CD-ROM),
Report No. FHWA-SA-00-005, 2000. Available online at http://safety.fhwa.dot.gov /
fourthlevel/ newprod.htm#set, accessed April 24, 2004.
Florida Department of Transportation, 2002 Quality / Level ef Service Handbook, FDOT:
Tallahassee, 2002.
Harkey, D.,]. Mekemson, M . Chen, and K. Krull, Pedestn.an and Birycle Crash Ana/ysis
Tool (PBCAT) Users Manual, Report No. FHWA-RD-99-192, Federal Highway Admin-
istration, Washington, DC, June 2000 .
Hefferan, Jennifer R. and Peter Lagerwey, "The City of Seattle, WA, USA Crosswalk
Inventory and Improvement Plan," ITE Journal, January 2004 .
Huang, Herman, C.V Zegeer, Richard Nassi, and Barry Fairfax, The Effects ef Innova-
tive Pedestrian Signs at Unsignalized Locations: A Tale ef Three Treatm ents, Report No.
FHWA-RD-00-098, Federal Highway Administration, McLean, VA, August 2000.
Available online at http://www.tfhrc.gov/safety/pedbike/pubs/00-098.pdf.
Hunter, W, J. Stutts, W Pein, and C. Cox, Pedestrian and Birycle Crash Ijpes ef the Ear/y
1990s, Report No. FHWA-RD-95-163, Federal Highway Administration, Washington,
D C, 1995.
Malenfant, L. and R. Van Houten, "Increasing the Percentage of D rivers Yie lding
to P edestrians in Three Canadian Cities with a Multifaceted Safety P rogram," Health
Education Research, Vol. 5, 1989, pp. 274-279 .
National Highway Traffic Safety Administration. Traffic Sefety Facts: 2004 Data. DOT
HS 809 913. Available online at http://www-nrd.nhtsa.dot.gov/pdf/nrd-30/ncsa/
TSF2004/809913.pdf.
Noyce, David A. and R. Dharmaraju, An Evaluation ef Technologies for Automated
Detection and Classification ef Pedestn·ans and Biryclists, Federal Highway Administration,
Massachusetts Highway Administration, and University of Massachusetts Trans-
13 9
140 How to Develop a Pedestrian Safety Action Plan
portation Center, May 2002. Available online at http:/ /www.walkinginfo.org/pdf/
UMTCBikeReport02-01.pdf, accessed August 2005.
Petritsch, Theodore A. Bruce W Landis, Peyton S. McLeod, Herman F. Huang, Sri-
kalyan Challa, "Level of Service Model for Signaliz ed Intersections for Pedestrians,"
TRB 2005 Annual Meeting CD-ROM, 2005.
Reschovsky, C., "Journey to Work: 2000," Census 2000 Brief, US Department of Com-
merce, Census Bureau, Washington, DC, March 2004. Available online at http://www.
census.gov / prod/2004pubs/ c2kbr-33.pdf, accessed April 23, 2003.
Robertson, Douglas, "Chapter 13: Pedestrian Studies," Manual of Transportation Engi-
neering Studies, Institute of Transportation Engineers, Washington, D.C., 2000.
Schneider, Robert, Robert Patton, Jennifer Toole, Craig Raborn, Pedestn·an and Birycle
Data Collection in United States Communities:Quantijjing Use, Survrying Users, and Document-
ing Facility Extent, Federal Highway Administration, January 2005. Availa ble online at
http:www.pedbikeinfo.org.
U.S. Department of Justice, The Americans With Disabilities Act Title II Technical Assistance
Manual, Covering State and Local Governments, November 1993.
U.S. Department of Transportation, National Birycling and Walking Sturjy Five Year Status
Report, Federal Highway Administration, Washington, DC, 1999. Availa ble online at
http://www.fhwa.dot.gov/ environment/bikeped/ study.htm.
Van Houten, R. and L. Malenfant, Canadian Research on Pedestn.an Safety, Federal High-
way Administration, Washington, DC, January 1999 . Available online at http://www.
fhwa .dot.gov / tfhrc/ safety/ pubs /99090 /9 9090.pdf.
Van Houten, R. and L. Malenfant, "The Influence of Signs Prompting Motorists to
Yield 50 ft (15.5 m) before Marked Crosswalks on Motor Vehicle-Pedestrian Conflicts
at Crosswalks with Pedestrian Activated Flashing Lights," Accident Ana/ysis and Preven-
tion, Vol. 24, 1992, pp. 217-225.
Van Houten, R., D. McCusker, and L. Malenfant, ''Advance Yield Markings: Reduc -
ing Motor Vehicle-Pedestrian Conflicts at Multilane Crosswalks with Uncontrolled
Approach," Transportation Research R ecord 1773 , TRB, National Research Council,
Washington, DC, 2001, pp. 69-74. Available online at http:/ /www.cers-safety.com /
advanceyieldmarkings. pdf.
Van Houten, R., "The Effects of Advance Stop Lines and Sign Prompts on Pedestrian
Safety in Crosswalks on Multilane Highways," Jour nal of Applied Behavior Ana/ysis 21,
1988, pp. 245-251. Available online at http://www.pubmedcentral.nih .gov/picrender.
fcgi?artid=1286120&blobtype=pdf.
Appen d ix A: How to Create an d Run an Effective Pedestrian Adv isory Bo ar d
Step 1: Create an Official PAB
Appendix A:
How to Create and Run an
Effective Pedestrian
Adviso ry Board
Pedestrian A dvisory Boards (PABs ) should be created through an official action.
At the local level, local officials can pass a resolution; at the state level, it may be an
agency directive or a law passed by state legislators. Creating an official PAB is impor-
tant for two reasons:
1. The creation of the PAB will immediately make decision-makers aware of the
Board and its importance while also educating them on important pedestrian is-
sues; and
2. An official PAB cannot be easily disbanded or ignored when the decision-makers
change (e.g. new department director, mayor, or governor).
Step 2: Recruit and Interview PAB Members
PABs should be made up of about eight to fifteen people-any fewer, and partici-
pants will be overwhelmed; any more, and the size can become unmanageable. Often
state PABS are larger than local PABs. It is useful to have up to 15 people for a few
reasons: it can be difficult to get anything done if some do not show up for a meet-
ing; there is always attrition for unrelated reasons (e.g., people moving); when the
group is established, it can more effectively work in subcommittees if more people
are involved. Appointments should be staggered to avoid large turnover and promote
continuity. In order to prevent discontinuity, the Chair position should not be a rotat-
ing position.
To create an effective, balanced, and diversified PAB, all prospective candidates should
be recruited and interviewed . Simply contacting various organizations and asking
them to send a representative is not enough; openings should be advertised through
local media sources or political offices. A letter of interest and a resume should be
required. People who inves t their time are more likely to be committed PAB members.
The interview should be like any other job interview. For example, interviews could be
conducted by a representative from the executive office (mayo r or city manager), the
person who will be staffing the PAB, and a current PAB member.
14 1
142 How to Develop a Pedestrian Safety Action Plan
There are three qualities to look for in prospective PA B members:
1. Candidates need to have the interests of the broader community in mind rather
than be focused on an is sue close to home (e.g. a stop sign on their street), or
they are likel y to leave once their issue has b een addressed ..
2. Candidates should have a history of volunteerism; experienced volunteers will
be more likely to attend meetings and commit the time needed to make the PAB
successful .
3. Candidates need to be good listeners and have a collaborative approach to prob-
lem solving.
Since PABs are advisory, they will only be effective and legitimate if their members
reflect the community they represent. Gender, race, age, type of walker (casual to fit-
ness walkers), and the geographic location of residence for each applicant should be
considered to ensure a balanced, representative board.
Step 3: Determine Logistic Support
The local or state agency should make it very clear from the beginning what services
can and cannot be provided to a PAB. Staffing a PAB should require about four to
eight hours a month. Direct services should be limited to providing a meeting place
and attending meetings. Minutes and meeting notices are typically done by the Board
members-email makes this easy-but can also be done by a secretary on loan to the
Board from a state or local agency. A PAB may benefit from secretarial support to take
notes or transcribe audio tapes, write minutes, send out announcements, make copies,
schedule rooms, etc. However, the more the board members take responsibility for
their logistics, the more invested and effective they will be.
Step 4: Provide PAB Members with Timely and Useful Information
The most important role for local and state agency staff is to provide the PAB with
timely and use ful information so their input is effective. PAB members are volunteers
w ho are giving of their limited time to the community and their time should be well
spent. For example, board members need to know when they can provide comments
on an Environmental Impact Statement (EIS) or a major public works project.
An informed PAB will be a better board. For example, in Seattle, PAB members get
together once a year for an all day, facilitated retreat. As part of the retreat, Seattle
Department of Transportation staff conducts a short training session on pedestrian
design issues. One of the purposes of the training is to help participants better un-
derstand things that can't be changed (e.g. shape and color of a regulatory sign) versus
things that involve more choices and engin eering judgment (e.g. determining the num-
ber of lanes needed on an arterial that is being reconstructed).
Step S: Set the PAB Agenda
The Board Chair should coordinate with agency staff and departmental representa-
tives (listed in Step 3) to develop a list of topics for Board review and input. The rela-
Ap p endix A: How t o Create and Run an Effective Pedestrian Advis o ry Board
tionship of the agency with the Chair is critical to the success of the Board. Typically,
PABs will want to provide input on agency policies, programs, and projects. Board
meetings should feature a presentation on one of these topics. This makes every meet-
ing important and ensures good attendance and participation. The Chair (not agency
staff) should invite the program/project manager to participate and present at a PAB
meeting. The person who staffs the PAB should help with the presentation. This
builds teamwork and can make presenting to a citizen's group a positive experience.
143
144
Appendix B:
How to Conduct
Pedestr ian Counts and
Behavior Studies
How to Develop a Pedestrian Safety Action Plan
Step 1: Determine Study Location and Scope
When conducting a pedestrian study it is important to identify the exact location of
where the data is to be collected. Counts at intersections or along short segments of
streets may include an observation of the location where the pedestrians are crossing
(intersection versus midblock, in or outside of the crosswalk, and which crosswalk at
an intersection is to be studied).
Step 2: Decide on Types of Studies to Perform
Pedestrian studies may include collecting data on pedestrian volumes, walking speeds,
gaps in motor vehicle traffic, conflicts between vehicles and pedestrians, or pedestrian
behavior. The type of study should be determined based on what problems exist at a
location and should aim to assist in selecting appropriate countermeasures.
Step 3: General Observation of the Study Site and Pedestrians
Before starting the actual data collection, the analysts should familiarize themselves
with the study location and note the types of signal control, the location of crosswalks
and markings and other features such as sight distance restrictions. It is also appropri-
ate to note general observations of pedestrian behavior such as walking patterns and
compliance with signal control devices.
Step 4: Develop a Data Collection Plan
It is important to create a plan for what type of data will be collected and during what
time period. Depending on the specific geometry of the site, locations need to be
identified where the analyst can readily observe all necessary data . Pedestrian count
and behavior data should focus on the time of day or day of week when a concern
exists . This could include times with high or low pedestrian volumes, depending on
when pedestrian crashes occurred. Pedestrian counts at schools should be conducted
during school arrival or departure times and the duration may be limited to the start
Append ix B: How to Cond uct Pedestria n Co unts and Behavi or Stud ies 145
Pedestrian Count Examples
Manual Pedestrian Counts
A number of localities around the country collect manual counts on a regular basis. The Washington, D.C.
District Department ofTransportation conducts pedestrian counts at each leg of approximately 100 inter-
sections annually. The District of Columbia has been taking pedestrian counts at intersections and other
pedestrian crossing locations for over 20 years . Counts are currently on file for approximately five to ten
percent of the 13,000 intersections in the District.
In Albuquerque, New Mexico, the Mid-Region Council of Governments (MRCOG) collects bicycle and pe-
destrian counts at all signalized intersections in Albuquerque (more than 500 sites) on a three-year cycle.
Automated Pedestrian Counts
A number of agencies have installed infrared devices to collected automated counts of pedestrians, as well
as bicyclists. The City Government of Cheyenne, Wyoming has installed an infrared counter to take the
path counts on the Dry Creek Greenway. In Licking County, Ohio, the Licking County Area Transportation
Study has installed infrared counters in 11 locations along a shared-use path system.
The Massachusetts Highway Department and the University of Massachusetts Transportation Center have
installed an infrared sensor placed above the Norwottuck Rail Trail at the end of Route 116 underpass in
Amherst, MA. The Autosense II sensor was placed on an underpass structure, 5.4 m (18 ft) above the trail,
in order that pedestrians and bicyclists passing underneath the device could be detected. The active infra-
red sensor detected pedestrians and bicyclists with two separate infrared beams (Noyce, 2002). For more
information, visit: http://www.walkinginfo.org/pdf/UMTCBikeReport02-01.pdf.
A variety of types of technologies are available for automated counting of pedestrians. These technologies
are evaluated in detail in the research paper, "An Evaluation ofTechnologies for Automated Detection and
Classification of Pedestrians and Bicyclists;' which is available online at http://www.walkinginfo.org/pdf/
UMTCBikeReport02-01.pdf.
and end of the school day. Concerns along bus routes should focus on the peak com-
mute times or whenever pedestrian crashes are occurring. Pedestrian concerns in a
business area may include both the peak commute times and the midday lunch period.
If there is a nighttime pedestrian safety concern, nighttime counts and observations
should be made. The study duration should be matched to signal warrants in the
MUTCD and other local or state requirements. In general, the duration of a study may
vary from an hour to multiple days, possibly affecting the personnel requirements.
Step S: Collect the Data
The actual data collection process varies depending on the type of study. Examples of
study types include:
• Volume Study: Pedestrian counts can be performed manually using tally sheets,
mechanical count boards, or electronic count boards. There are also technolo-
gies availab le to perform automated pedestrian counts, includin g video detection,
146
•
•
How to Develop a Pedestrian Safety Action Plan
infrared, or microwave technology. When pedestrian counts are made, they are
generally short-term counts of two to four hours. In rare instances, counts may
be made for up to eight hours. Counts should ideally be summarized by 15-min-
ute intervals, but hourly summaries are also acceptable. If 15-minute intervals are
used, a single individual may be able to count each movement of a busy inter-
sec tion in an hour. P edestrian activity along a sidewalk or in a crossing may be
recorded on a video camera and then reviewed at a later date at high speed to save
time. If pedestrian counts are very high, a single observer can be used to conduct
the count from a videotape by reviewing the videotape slowly.
Walking Speed Study: D etermining average pedestrian walking speeds is neces-
sary for pedestrian signal warrants, pedestrian signal timing and other applications.
Walking speed studies are especially important when the average walking speed
is significantly different from the typically assumed 1.0 to 1.2 m/s (3.5 to 4 ft / s).
The difference may be due to pedestrian characteristics such as high volumes, age
distribution, pedestrian cell phone use, level of phys ical fitness, and disabilities; or
it can be related to geometric characteristics of the study site such as steep grades,
narrow sidewalks, and shared-use paths. Adverse weather conditions including
rain, snow and wind may also affect walking speeds in coastal or mountain re -
gions.
Gap Study: In some cases it may be necessary to analyze gaps in the motor vehicle
traffic stream at pedestrian crossing locations to determine appropriate crossing
treatments. For example, the MUTCD warrants a pedestrian signal if the frequen-
cy of crossable gaps falls below a certain threshold.
Behavior Study: While general observation s on pedestrian behavior should be
made before any detailed data is collected, there may be situations where a more
in-depth analysis of pedestrian behavior is appropriate. Elements of pedestrian
behavior of interest may include the occurrence of pedestrian-ve hicle conflicts,
an assessment of pede strian understanding and compliance with traffic control
device s, or other exhibited behavior, such as running, or hesitating. Measures of
effectiveness of behavioral studies can be quantitative (number of conflicts or
violations), but may also be more qualitative in nature (pedestrians seem to be
unclear about meaning of signs).
Step 6: Analyze the Data
It is good practice to decide on the method of data analys is prior to collecting the
data. This will assure that all necessary information is in fact collected and will be
availa bl e during data extraction and analys is. D epending on the type and extent of the
study, it may be appropriate to consult a statistician to ass ure that large amounts of
data (especially before-and-after or time series d ata) are properly interpreted.
Appendi x C: Ho w t o Co nduct Pede strian and Mot o ris t Behavior Asses sment s
Appendix C: How to
Conduct Pedestrian and
Motorist Behavior
Assessments
Step 1: Understand the Human Element of a Crash
Firs t and foremost on the observer's mind should be the realization that, in most
cases, the pedestrian did not walk into the street with the intention of being struck.
Similarly, the motorist involved in a pedestrian crash did not collide with the pedes-
trian intentionally. If the motorist could have avoided the crash, he or she would have
done so. Crashes can result from:
•
•
•
•
•
•
•
•
Motorist or pedestrian inattention .
Poor judgment on the part of the motorist or pedestrian (possi b ly a factor of
age [young and elderly pedestrians and motorists], mental or physical disabilities,
fatigue, or drug/ alcohol use).
Miscalculation of risks .
Pedestrians not understanding the speed of an approaching vehicle .
Motorists miscalculating their own speed .
Pedestrians assuming that approaching motorists see them and will react to them .
Motorists n ot understanding the speed and direction of a pedestrian, or unex-
pected pedestrian movement.
Visual screens (parked or stopped vehicles, landscaping) or ins u fficient lighting .
Step 2: Observe Pedestrian and Motorist Movements
The best way to conduct the process of "thinking like a pedestrian" is to first observe
ped estrian movements. In many cases, pedestrians will follow a variety of patterns
in areas with a high number of crashes. For example, some pedestrians will wait at a
signalized intersection and cross on the WALK signal, while others will cross against
the signal when they see a gap in motor vehicle traffic.
Next, observe motorist movements to "think like a motorist." In many cases, motor-
is t s appear to travel oblivious to the presence of pedestrians. Observers should note
their movement s. For example, some motorists at a sign alized intersection will yield to
147
148 How to Develop a Pedestrian Safety Action Plan
pedestrians while turning right or left when the pedestrians are in the crosswalk, while
others will try to drive around the pedestrian and through the crosswalk as soon as
there is a sufficient gap to do so.
Step 3: "Walk a Mile" in Their Shoes
The observer should begin where the pedestrians initiate their movements, preferably
under typical conditions (including at night), and look up and down the street to see
what the pedestrian sees. With all due caution, the observer should then attempt to
emul ate the observed movement without placing himself or herself at risk. At times,
an ill egal maneuver may be safer than the legal or intended movement.
To focus on the motorist's experience, the observer should also drive through the area
and make the observed movements, preferably under typical conditions (including at
night), and look up and down the street to see if there are any pedestrians in the prob-
lem areas identified earlier. With all due caution, the observer should then attempt to
emulate the observed vehicle movement (ag ain, without placing anyone at risk).
Step 4: Record Objective and Subjective Observations
The o b server should then note what he or she saw, heard, felt, including a subjective
evaluation such as the relative safety of both the pedestrian and motorist maneuvers
observed and experienced. Objective observations can point out design flaws such
as poor sight distance, or other roadway features. The subjective evaluation may lead
to an observation such as "no wonder pedestrians do not cross there-it is so far
away from the bus stop" or "I can see why the motorist could have missed seeing the
pedestrian crossing-that billboard is so distracting." The observer should note these
behaviors uncritically and record these movements.
Step S: Visualize a Solution
The observer then should take a step further and imagine a pedestrian safety solu-
tion that better accommodates the pedestrian's needs as well as the motorist's. With
that solution in mind, the observer should again cross the road making the movement
as if the solution were in place (if possible), as well as drive along the roadway. This
process may require the use of spotters to watch for approaching motor vehicle traffic
and pedestrians and ensure that no one is placed at undue risk.
App end ix D: Li st of Fun d i n g Sou rces
Appendix D:
List of Funding Sources
Federal
A brief description of various federal funding sources available is listed below. For
more detailed information, p lease see Appendix 2 of the "FHWA Guidance-Bicycle
and Pedestrian Provisions of Federal Transportation Legislation" (FHWA, 1999),
available online at http://www.fhwa.dot.gov/ environment/bikeped/bp-guid.htm.
Safe, Accountable, Flexible, Efficient Transportation Equiry Act-A Legary for Users
(SAFETEA-LU)
SAFETEA-LU was signed into law on August 10, 2005. It represents the largest
surface transportation investment in U.S. history and contains a number of provisions
to address pedestrian safety, many of which are highlighted below. More information
can be found at: http://www.fhwa.dot.gov/safetealu /.
Suiface Transportation Program (STP)
The Surface Transportation Program provides flexible funding to states which can be
used on a wide variety of projects including pedestrian improvements. States should
consider the STP as a primary source of funds for pedestrian projects because of its
broad eligibility requirements. More information can be found at: http:/ /www.fhwa .
dot.gov/ safetealu / factsheets / stp.htm.
Transportation Enhancement Program (TE)
Transportation Enhancements funds are available for communities to help expand
transportation choices such as safe pedestrian facilities . These provisions include
funding for non-construction safety-related activities, including pedestrian safety train-
ing. More information can be found at: http://www.enhancements.org/.
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150 How to Develop a Pedestrian Safety Action Plan
Congestion Mitigation and Air Quality Impro vement Program (CMAQ)
The CMAQ Program provides funding for air quality non-attainment areas . Programs
and projects that contribute to air quality improvements and reduce congestion can be
provided funding through the CMAQ Program. These funds can be used for a variety
of pedestrian pro je cts including constructing pedestrian walkways and non-construc-
tion projects such as maps and brochures. More information can be found at: http://
ops.fhwa .dot.gov / safetea / congairfactsheet.htm.
Highwqy Bridge Program
The Highway Bridge Program provides funds to replace or rehabilitate highway
bridges. Sidewalks and pathways under crossings or bridges can be built as part of
bridge rehabilitation. More information can be found at http://www.fhwa.dot.gov /
safetealu / factsheets /bridge.htm.
National Highwqy System Program (NHS)
This program provides funding for improvements to roads that are part of the Na-
tional Highway System, which includes the Interstate System and other arterial routes.
Funding can be used for pedestrian facilities along NHS routes. More information
can be found at: http://www.fhwa.dot.gov/safetealu /fac tsheets /nhs.htm.
Federal Lands Highwqy Program (FLHP)
These funds are available for transportation planning, research, engineering, and con-
struction on Federal lands. This funding can b e used for pedestrian facilities within
these lands. More information can be fou nd at: http:/ /www.fhwa.dot.gov/flh /fl-
hfs051028.htm.
Highwqy Sefe ty Improv ement Program (HSIP)
The Highway Safety Improvement Program provides funding to reduce the number
and severity of traffic fatalities and injuries on all public roads including publicly-
own ed pedestrian pathways and trails. More informatio n can be found at: http://
www.fhwa .d ot.gov/ safetealu / factsheets /hsip.htm.
Railwqy-Highwqy Crossings
There is also specific funding to reduce the number and severity of traffic fatalities
and injuries at public highway-rail grade crossings by reducing the hazards to vehicles
and pedestrians and installation of protective devices at crossings. More information
can be found at: http://www.fhwa .dot.gov/ safetealu / fa ctsheets / railcrossings.htm.
Appendix D: List of Funding Sources
Recreational Trails Program (RTP)
The Recre ational Trails Program provides funding to develop recreational trails and
related facilities for both motorized and non-motorized uses. More information can
be found at: http://www.fhwa.dot .gov/ environment/ rectrails /.
National Scenic Bywqys Program
Funding is available for the construction of pedestrian facilities along state and na-
tional scenic byways. More information can be found at: http:/ /www.bywaysonline.
org/ grants / guidance /.
Safe Routes to School Program (SR2S)
The Safe Routes to School Program provides funding to enable and encourage chil-
dren to walk to school safely. Included in this program are infrastructure funds, which
are used to assess and make improvements to the walking and bicycling physical
environment around schools, and non-infrastructure funds, which are used to educate
or encourage children to walk or bike to school. More information can be foun d at:
http://www.saferoutesinfo.org/legislation_funding /.
Metropolitan and Statewide Planning Funds
These funds are available for states and metropolitan areas for transportation planning
and research. Statewide and metropolitan planning funds can be used for pedestrian
plans. More information can be found at: http://www.fhwa.dot.gov/safetealu /fact-
sheets/ mp.htm and http://www.fhwa.dot.gov/ safetealu / factsheets/ statewide.htm.
State and Community Highwqy Safety Grant Program (S ection 402)
The National Highway Traffic Safety Administration helps adminis ter this program
which can be used for pedestrian safety initiatives. More information can be found at:
http://safety.fhwa .d ot.gov/ state_program/ section402/.
Federal Transit Administration Grants (FIA)
The Federal Transit Admini stration offers many grants to improve transit systems,
which includes p edestrian access and walkways. More information can be found at:
http://www.fta.dot.gov/25_ENG_HTML.htm.
Community Development Block Grants (H.UD)
The U.S. Department of Housing and Urban D evelopment administers the Com-
munity Development Block Grants. These grants assist low-and moderate-income
neighborhoods and can be us ed for pedestrian enhancement projects such as sidewalk
installation or repair. More information can be found at: http://www.hud .gov/ of-
fices/ cpd/ communitydevelopment/ programs /index.cfm.
151
152 How to Develop a Pedestr ian Safety Action Plan
State
In addition to federal funding, there are also many sources of state funding that can
be used for pedestrian safety projects. Review the statewid e pedestrian master plan, if
one is available, for information on sources specific to the state. State D OTs may also
provide information on their Web sites as to available funding mechanisms. Many of
the examples below are from the Arizona Statewide Birycle and Pedestrian Plan (Arizona
DOT, 2003) and the Alaska Birycle and Pedestrian Plan (Alaska D OT and Public Facili-
ties, 1995). Although each state will differ, some funding examples include:
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
Capital Budgets .
Legislative Discretionary Funding .
Local Service Roads and Trails (LS R&T) .
Trails, Footpaths, and Campsites .
Operating Budge ts .
State Funds as Federal Match .
State Sale s Tax .
Highway User Revenue Fund (HURF) .
Local Transportation Assistance Fund (LTAF) .
State Park Heritage Fund .
Game and Fish Department Heritage F und .
Growing Smarter Planning Grant Prog ram .
State Highway Fund .
State bicyclist and pedestrian grants .
Special transportation funds (fi nanced by state sales ta x) .
Transportation/ Growth Management P rograms .
Specialty license tag fees .
Regional
The fo ll owing are two common examples of regional funding that may be availab le:
• Association of Governments (or Regional Planning Council) Funds.
• Municipal Planning Organization Budgets.
Local
Local funding resources can also be used for pedestrian safety projects. These will
vary greatly from place to place. Details for many of the examples below can be
found in the Arizona Statewide Birycle and Pede strian Plan (A rizona DOT, 2003) or in
Main Street ... when a highwqy runs through it: A Handbook for Oregon Communities (Transpor-
tation and Growth Management, 1999). These plans provide excellent examples of
the type of local funding sources that may be available. A general list of local funds
includes:
•
•
•
General Funds (fro m property taxes and gas tax reve nu es) .
D evelopment Impact Fees .
P arks and Recreation F unds .
Appendix D: List of Funding Sources
•
•
•
•
•
•
•
•
•
•
•
•
•
Flood Control District Funds .
Revenue and General Obligation Bonds .
Tribal Casino Revenues (depending on the state) .
Local Funds as Federal Match .
Special Bond levies .
Transportation Impact fees .
System development charges .
Local Improvement Districts .
Charges to adjacent property owners .
Cooperative projects with utility districts, etc .
Urban renewal district .
Economic improvement district .
Business improvement district .
Private
Funding can also be found in the private sector. Some sources include:
•
•
•
•
•
•
•
Developer off-site improvements (not money, but they are improvements) .
Dedications .
Contributions .
Corporate underwriting .
Donations of right of way / easements .
Clubs, groups, and volunteers .
Grants and loans .
153
154 How to Develop a Pedestrian Safety Action Plan
Appendix E:
Evaluation of a
Pedestrian Safety Plan
Evalu ation serves as a tool to guide the efforts of the project staff, to demonstrate
project success to the public, and to ass ure continued support from sponsors. The
extent and methods of evaluation may differ for pedes trian safety plans on the local,
MPO or state level, but the general principles stay the sam e. A thorough evalu ation of
a pedestrian safety plan investigates effectiveness of countermeasures, monitors public
opinion, and constantly reassesses the actual program plan.
Countermeasure Evaluation
Implemented treatments should generall y be evaluated in terms of their overall ef-
fectiveness, which typically has already been done by national research institutes and
other agencies (at least for the treatments discussed in Ch apter 7). But the usefulness
of an y treatment in reducing pedestrian crashes is likely to vary across locations. The
following questions should be asked:
•
•
•
Is the treatment effective (in general)?
D oes the treatment work as intended?
How did the treatment affect drivers and vehicle LOS?
Public Opinion Evaluation
Stakeh older involvement early in the plan development process is important for
improving the quality of the plan. Chapter 2 discusses the importance of stakeholder
involvement to both tailor the action plan to the (perceived) needs of the community
and continuously update the public of the progress of implementation. The main
questions to ask are:
•
•
•
•
D oes the program address the needs of the communi ty?
Is the general public aware of the program?
Is the program well received?
Is there opposition b y certain groups?
Append ix E: Evalua t io n of a Pedes t rian Safety Plan
Before-and-After Evaluation Study Examples
University Place, WA; Portland, OR; and Boulder, CO
A number of agencies have performed evaluations of pedestr ian safety before-and -
after improvements were made to a facility. While many of the assessments focus
upon travel speeds, others examine vehicle volumes, number of conflicts, and num-
ber of incidents before and after facility improvements.
The City of University Place, Washington built and transformed a ma -
jor corridor, Bridgeport Way, into an inviting main street that would
allow pedestrians and bicyclists to move about comfortably and
safely while still accommodating vehicular movement through the
corridor. The improvements included the placement of sidewalks
and bicycle lanes along both sides of the corridor, as well as planter
strips buffering the road from the sidewalk. A median and street
lighting were also added , among other improvements. The City
analyzed speed and accident data before and after the construction
of the Bridgeport Way improvements. The project's traffic calming
features reduced speeds by 13 percent and reduced crashes by 60
percent compared to pre-improvement conditions.
In Portland, Oregon, a variety of traffic calming techniques were
implemented along SE Harold Street, including the construction of
one median island, eleven speed humps placed 91 to 274 m (300
to 900 ft) apart, and curb extensions at five intersections. A befo re-
and -after evaluation revealed that traffic volumes had decreased
from a range of 3,400 to 4,800 vehicles per day (vpd) to a range of
2,000 to 3,500 vpd . The 1,600 vpd ave rage drop in daily traffic is
a reduction of 37 percent. This drop presumably represents cut-
through motorists who found the speed humps to be inconven ient. The 85th per-
centile speed on SE Harold prior to project construction ranged from 59 to 64 km/h
(37 to 40 mi/h). Measurement since speed hump construction shows an average
decrease in the 85th percentile speed of 9.6 km/h (6 mi/h).
In Boulder, Colorado, high traffic volumes and speeds were creating an unsafe and
unpleasant walking and bicycling env i ronment along 55th Street. A Capital Im-
provement Project was implemented to provide improved bicycle and pedestrian
facilities in the corridor, and to provide some traffic calming for vehicles . Continu-
ous sidewalks and bicycle lanes were prov ided along the street, as well as a bicy-
cle/pedestrian underpass, two raised cross i ngs and one raised intersection , with
pedestrian refuge is lands at both of the raised crossing locations. Data collected by
the city staff indicate that both travel speeds and traffic volumes decreased follow-
ing completion of the project. The 85th percentile speeds decreased from 67 km/h
(42 mi/h) before the project to 61 km/h (38 mi/h) af ter the project. Average vpd
decreased from 12,400 before the project to 9,400 af ter the project.
For more information, visit http://www.walkinginfo.org/pedsafe and find the case
studies relating the details of these improvements.
155
Bridgeport Way in
University Place,
WA before (above)
and after (below)
improvements were
made.
156 How to Develop a Pedest rian Safety Action Plan
Program Plan Evaluation
It is furtherm ore important to assess if the overall o bjectives of the program plan
have been achieved . Depending on the specific objectives, questions could include:
•
•
•
•
•
Did the overall number of pedestrian crashes decrease?
D o stakeholders perceive that roads are safer?
Are agencies collaborating on efforts?
Did the design manuals get updated with new policies and countermeasures?
Have proposed procedures been adopted by agencies?
An important precondition to program evalu ation is that goals are formulated early-
on in the process . If assessment results can be matched to explicitly stated goals, the
success in achieving those objectives can be demonstrated and decisions can b e made
on h ow to improve or modify the program if necessary. To assure proper evaluation,
it should be included in the project budget from the beginning. Types of evaluation
include:
•
•
•
Before and After Studies-Typical measure s of effectiveness for pedestrian
safety projects include crash frequency, number of crossing events, or number of
o b served conflicts (a short-term proxy measure for actual crashes), yielding rates.
Public Surveys-Surveys could include opinion polls about the program, knowl-
edge tests fo ll owing an education campaign, or questionnaires investigating
p erceived safety of improved intersections.
Expert Rating-The project team could hire experts on pedestrian safety to
evaluate (or re-evaluate) an intersection, a corridor, or the general safety of a
community.
Appendix F: Reference Gu ide and Plan Summaries
National Guides
Appendix F:
Reference Guide and Plan
Summaries
Guide for the Planning, Design and Operation ef Pedestrian Facilities (2004)
The American Association of State and Highway Transportation Officials (AAS HTO)
Guide for the Planning, Design and Operation ef Pedestrian Facilities presents effective mea-
sures for accommodating pedestrians on public rights-of-way. The guide recognizes
the profound effect that land use planning and site design have on pedestrian mobility
and addresses these topics as well. The guide can be purchased through the AASHTO
Web site at http:/ /www.aashto.org.
D esigning Sidewalks and Trails for Access, Parts 1 (1999) and 2 (2001)
The guides Designing Sidewalks and Trails for Access Parts 1 and 2
provide the state of the practice for applying the American with
Disabilities Act (ADA) and similar requirements to pedestrian
facilities . Find Part one at: http://www.fhwa.dot.gov / environ-
ment/bikeped/ access-1.htm and Part 2 at: http://www.fhwa.dot.gov/ environment/
sidewalk2/.
Manual on Uniform Tref.fic Control Devices (2003)
The Manual on Uniform Tref.fic Control D evices (MUTCD) defines the standards used b y
road managers nationwide to install and maintain traffic control devices on all streets
and highways . The MUTCD is published by the Federal Highway A dministration
(FHWA). The MUTCD audience includes the in surance industry, law enforcement
agencies, academic institutions, private industry, and construction and engineering pro-
fessionals. Find the document at http:/ /mutcd.fhwa.dot.gov/pdfs /2003r1 /pdf-index.
htm.
157
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PEDSAf E,
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How to Deve lop a Pedestrian Safety Act ion Plan
Traffic Control Devices Handbook (2004)
The Traffic Control Devices Handbook (TCDH) was prepared by the Institute of Trans-
portation Engineers (ITE) to augment the MUTCD as adopted nationally by the
Federal Highway Administration. While the MUTCD outlines the design and applica-
tion of traffic control devices on public roadways in the United States, criteria and
data to make decisions on the use of a device and its application are not always fully
covered in the MUTCD. This Handbook bridges the gap between the MUTCD provi-
sions and those decisions to be made in the field on device usage and application. The
Handbook can be ordered through the Institute of Transportation Engineers online
bookstore at http:/ /www.ite.org.
Design and Safety of Pedestrian Facilities, A Recommended Practice of the I nstitute of Transporta-
tion Engineers (1998)
D esign and Sefety of Pedestrian Facilities, A Recommended Practice of the I nstitute of Transporta-
tion Engineers is intended to provide guidance on how to implement a comprehensive
program of engineering, education and enforcement to improve safety for pedestrians.
Find the document at http://safety.fhwa.dot.gov/ ped_bike / docs / designsafety.pdf.
~ Pedsefe: Th e Pedestrian Sefety Guide and Countermeasure Selection System (2004)
Pedsefe: The Pedestrian Sefety Guide and Countermeasure Selection System is intended to pro-
vi de practitioners with the latest information available for improving the safety and
mobility of those who walk. The online tools provi de the user with a list of possible
engineering, education, or enforcement treatments to improve pedestrian safety and/
or mobility b ased on user input about a specific location. It can be found at http://
www.walkinginfo.org/ pedsafe /.
A Guide for Reducing Collisions Involving Pedestrians (20 04)
The National Cooperative Highway Research Program (NCHRP) Report 500, Volume
10: A Guide for Reducing Collisions In volving Pedestria ns provides strategies that can be em-
ploye d to reduce the number of collisions involving pedestrians. The NCHRP Report
500, Volume 10 can be purchased through the Transportation Research Board Web
site at http:/ /www.trb.org.
A Review of Pedestn.an Sefety Research in the United States and Abroad (2 004)
The purpose of this report is to provide an overview of research studies on pedes-
trian safety in the United States and abroad . Readers will find details of pedestrian
crash characteristics, measures of pedestrian exposure and hazard, and specific road-
way features and their effects on pedestrian safe ty. Such features include crosswalks
and alternative crossing treatments, signalization, signing, pedestrian refuge islands,
provisions for pedestrians with disabilities, bus stop locations, school crossing mea-
sures, reflectorization and conspicuity, g rade-separa ted crossings, traffic-calming
measures, and sidewalks and paths. Pedestrian educational and enforcement programs
Appendix F: Reference Guide and Plan Summaries
are also discusse d . Review this document online at http:/ /www.walkinginfo.org /pdf/
PedSynth /Ped_Syn thesis_Report. pdf.
National Birycling and Walking Stutjy (1994)
The National Birycling and Walking Stutjy includes a series of 24 case studies highlight-
ing model activities conducted with respect to bicycle and pedestrian planning. The
National Birycle and Walking S tutjy presents a plan of action for activities at the Federal,
state, and local levels for increasing the amount of walking and bicycling in the United
States. A five-year status report on the National Birycling and Walking Stutjy was pub-
lished in 1999 . A ten-year status report on the study was published in 2004. Selected
case studies included in the 1994 ational Birycling and Walking S tutjy can be obtained
through the National Transportation Library at http://ntl.bts.gov/DOCS/nbws.html.
The 199 9 five-year status report is available through the FHWA We b site at http://
www.fhwa.dot.gov/ environment/bikeped/ study.htm. The 2004 ten-year status report
is available at http://www.fhwa.dot.gov/ environment/bikeped/study /.
Highwqy Design Handbook for Older Drivers and Pedestrians (2001)
The Highwqy Design Handbook for Older Drivers and Pedestrians provi des recommenda-
tions that upon implementation may remedy deficient designs that di sproportionately
penalize older road users due to changes in functional ability experienced with normal
aging. These may be most urgently needed w h ere a crash problem with older drivers
or pedestrians has already been demonstrated; however, the greater b enefit arguably
lies in designing safer new roads and identifying and modifying problems with exist-
ing roads before statistics reveal a crash problem. The engineering enhancements
described in this document should benefit all road users, not just older persons. The
document is available online at http://www.tfhrc.gov/humanfac/01 103/ coverfront.
htm#toc.
Sefery Effects of Mark ed versus Unmarked Crosswalks at Uncontrolled Locations (2005)
Sefery Effects of Marked versus Unmarked Crosswalks at Uncontrolled Locations: Final Report
and Recommended Guidelines presents the results of a study that examin ed the safety of
pedestrians at uncontrolled crosswalks and provi des recommended guidelines for
pedestrian crossings. Review this document online at http:/ /www.walkinginfo.org /
pdf/ r&d/ safetyeffects. pdf.
An Ana/ysis of Factors Contributing to 'Walking Along &adwqy" Crashes : Research S tutjy and
Guidelines for Sidewalks and Wa lkwqys (2 00 2)
An Ana/ysis of Factors Contributing to 'Walking Along &adwqy" Crashes: Research S tutjy and
Guidelines for Sidewalks and Walkwqys summarizes the results of a study that examined
the safety impacts of having sidewalks and walkways along roadways. The document
also provides gui d elines and recommendations for providing such facilities. Review
this document online at http://www.walkinginfo.org/pdf/r&d /SidewalkReport.pdf.
159
160
(ll
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How to Develop a Pedestrian Safety Action Plan
Resource Guide on Laws Related to Pedestrian and Biryc/e S efery
This Guide presents a selection of vehicle and traffic law provisions from the Uni-
form Vehicle Code prepared by the ational Committee on Uniform Traffic Laws
and Ordinances (NCUTLO), other state laws and local ordinances that have a positive
effect on pedestrian or bicycle safety, and model laws prepared or adapted to meet
specific safety needs. The safety relevance of each provision is assessed in terms of
its likely effects on the causes of bicycle or pedestrian crashes with motor vehicles,
the prevention or reduction of bicyclist or pedestrian injuries and possible effects on
pedestrian and bicycle injury-producing situations that do not involve motor vehicles .
Each provision is cross-referenced to a description of how the concept is imple-
mented in each state. The Guide is available as a download or can be ordered from
the NHTSA Web site. http://www.nhtsa .dot.gov/people/injury/pedbimot/bike /re-
sourceguide /index.html.
Biryc/e and Pedestrian Sefery Resource Guide (2005)
The Bicycle and Pedestrian Safety Resource Guide is a compilation of existing and
proposed countermeasures to help solve a range of bicycle and pedestrian safety
problems. The Guide was prepared for the bicycle and pedestrian safety professionals
and others who are developing programs at the state or community level. The Guide is
available for download from NHTSA's Web site at http:/ /www.nhtsa.dot.gov/people/
injury/ pedbirnot/bike/BikePedestrian/ index.htm.
Sefe Routes to School Guide (2006)
The Safe Routes to School Guide is a comprehensive online reference manual de-
signed to support communities in developing Safe Routes to School programs. The
guide was developed by the Pedestrian and Bicycle Information Center (PBIC) in col-
laboration with SRTS experts from around the country and support from the ational
Highway Traffic Safety Administration (NHTSA), Federal Highway Adminis tration
(FHWA), Centers for Disease Control and Prevention (C D C) and Institute of Trans-
portation Engineers (ITE). Find the Guide at http://www.saferoutesinfo.org/guide/.
Adult School Crossing Guard Guidelin es
The Adult School Crossing Guard Guidelines outline the role of the adult school
crossing guard and the elements of a crossing guard program. The guide was prepared
by the National Center for Safe Routes to School and the Pedestrian and Bicycle In-
formation Center with funding from the National Highway Traffic Safety Administra-
tion and can be found at http:/ /www.saferoutesinfo.org/ guide / crossing_guard /index.
cfm.
Appendix F: Re ferenc e Gui de and Pl an Su mmaries
State Guides
Arizona: Statewide Birycle and Pedestrian Plan (2003)
This is a guide for making pedestrian-related tran sportation decisions at the state
and local level. The plan provides a long-term agenda for implementing a system of
pedestrian facilities on the ADOT State Highway Syste m and seeks to coordinate the
relationship between ADOT and smaller jurisdictions. The plan described state poli-
cies and codes that affect pedestrian planning and provides a matrix of creative ordi-
nances from around the nation, encouraging localities to implement and follow them.
It con tains an informative table on potential funding opportunities and resources that
consist of project type, required matching funds, deadlines, etc. The plan is well-orga-
nized and presents a great example of citizen participation and stakeholder involve-
ment. Development of the plan involved a comprehensive steering committee of
representatives from pedestrian activi s t organizations, municipalities, state engineering
agencies, a review committee, and engineering input. Find the document at http://
www.azbikeped .org/ statewide-bicycle-pedestrian-intro.html.
New ]em:y: Statewide Birycle and Pedestn.an Master Plan, Ph ase 2 (2 004)
This plan provides clear guidance for the most effective use of Federal, state, and local
resources to implement pedestrian and bicycle facilities. The stated goals and objec-
tives are supported with proposed performance measures to determine the effective-
ness and critical success factors. The plan presents a good example of how to use GIS
analysis to prioritize the improvement of pedestrian facilities around the state. It used
demand forecasting (s howing pedestrian trips by census tract and roadway crossability)
and suitability forecasting (calculating the suitability of making capital inve stments) to
iden tify and prioritize project locations . Summarized in a matrix form, the implemen-
tation section includes several strategies and assigns responsibility to various agencies
and organizations. This document is available online at http:/ /www.b ikemap.com /
RBA /NJBikePed. pdf.
Virginia: l/Trans 2025 Statewide Pedestnan Plan (2004)
This plan is a tool for establishing a consistent approach to integrate a consideration
for walking into transportation planning in Virginia. The preliminary draft remains
general, providing a basic framework of the vision, strategies, and action items. It dis-
cusses several influences on the need to offer and operate pedestrian facilities, includ-
ing Federal legislation such as the Intermodal Surface Transportation Efficiency Act
(ISTEA), ADA accessibility requirements, and Virginia Department of Transporta-
tio n policies. The plan reveals a regional program for obtaining public input, holding
twelve public stakeholder meetings across the state. It acknowledges that disagree-
men ts exist on h ow to accommodate pedestrians and that there is a need to arrive at a
cooperative solution. For more information, see the Web site http:/ /www.transporta-
tio n.virginia.gov /VTrans /home.htm.
161
~
ADOT
Statewide Bicycle
and Pedestrian
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--.. ·-·---
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Florida: Pedestrian Planning and Design Handbook (1996)
The plan presents guidelines, standards, and criteria for pedestrian planning and
facilities. It is intended as a reference for any locali ty, agency, organization, group, or
citizen interested in improving the walking environment. It offers an overview of the
pedestrian planning process and discusses the various steps of public involvement,
data collection, development of goals and strategies, and implementation resources.
The plan provides a comprehensive analysis of pedestrian~motor vehi cle crashe s
in the state. It discusses the design details of roadway crossings, intersection treat-
ments, and traffic calming strategies as well as presents other pedestrian considerations
such as signage and signalization, school/work zone practices, and street lighting. A
chapter is devoted to each element and includes recommendations, maintenance, and
further references. This document can be downloaded from the site http:/ /www.dot.
state.fl. us / safety/ ped_bike / ped_bike_standards.htm# Florida%20Ped%20Handbook.
Georgia: Pedestrian and Streets cape Guide (2 00 3)
The guide focuses on the design of pedes trian environments and streetscape facilities.
It offers technical information on "best practices" that apply to situations encountered
in project development. It provides a thorough examination of pedestrian characteris-
tics and factors that influence pedestrian travel. The guide supplies an interesting spa-
tial analysis, diagramming the space needs for different types of pedestrians-adults,
children, elders, and those with disabilities. It discusses ways to prioritize projects
using Geographic Information Systems (GIS), referencing the Latent Demand Model
and Portland, OR's Pedestrian Potential Index . The bulk of the guide exists in several
toolkits, each devo ted to different subjects. The toolkits begin with general design
guidelines and move into more specific topics such as accessibility, school zones, trails
and paths, sidewalks, crossings, etc. Detailed facility diagrams provide useful techni-
cal information for other agencies and localities. This report can b e found at http://
www.dot.state.ga. us / dot/ plan-prog/ planning/ projects /bicycle / ped_facilities_guide /
index.shtml.
Vermont: Pedestrian and Birycle Facility Planning and D esign Manual (2002)
The manual assists agencies, organizations, and citiz e ns with the planning, design,
construction, and maintenance of pedestrian facilities in a variety of settings. It incor-
porates a separate analysis of characteristics of traffic-related pedestrian fatalities and
common characteristics of pedestrian crashes. It primarily focuses on the sidewalk
environment adjacent to the roadway, considering width, slope, surface, and access
points. The supporting street cross-sections give a clear representation of desired
space and scale. The manual also recognizes special treatment of pedestrian planning
for rural areas. Visit the Web site http:/ /www.ao t.state.vt.us /progdev /Documents /
LTF /FinalPedestrianAndBicycleFacility /PedBikeTOC.html for more information.
Append ix F: Reference Gui d e a nd Plan Summ aries
Oregon: Bicycle and Pedestrian Plan (1995)
This is one of the first plans developed to promote walking. It is in-depth and infor-
mative, addressing various aspects of pedestrian planning. The plan is divided into two
sections-policy/ action planning and network planning-with the purpose of pre-
senting ODOT with general principles and policies for providing walkways along state
highways . It provides a framework for cooperation between ODOT and local juris-
dictions and offers guidance to cities and counties wanting to develop local pedestrian
plans. The plan p resents an overview of existing legislation relating to pedestrians,
describes the current conditions statewide, and suggests implementation actions to
ens ure achievement of stated goals and policies. It contains clear, measured diagrams
and street cross-sections of most desirable design facilities. The Oregon plan can
be read and ordered online at http://www.oregon.gov/ODOT /HWY /BIKE.PED /
docs/ or_bicycle_ped_plan.pdf.
Oregon: Main Street ... when a highwqy runs through it: A Handbook for Oregon Communities
(1999)
This handbook was designed for communities that are working together to enhance
the vitality of a main street which also serves as a state highway. It describes the many
tools available to identify the problems and figure out good solutions to strike a bal-
ance between the needs of pedestrians, shoppers, employees, business owners, and
residents with the needs of through traffic-both auto and freight-to move safely
and efficiently over longer distances. It can be found at http://egov.oregon.gov/
LCD /TGM/ docs / mainstreet.pdf.
California: Pedestrian and Bicycle Facilities in California, Technical Reference Report (2005)
Caltrans' Technical Reference Report is intended to help accommodate pedestrian trans-
portation throughout the State of California. It is intended as a resource for profes-
sion als, agency staff, and citizens. Through the collection of demographic and pedes-
tria n collision data, the report makes a strong case for the need to improve pedestrian
facilities. It contains a grant source matrix that shows available funding by agency,
amount, deadline, and requirements. The bulk of the report is related to pedestrian
travel, organized from broad topics to design detail . Each page contains a description
and discussion of a different element, drawing, diagram or photo that enables stan-
dard and innovative practices to be easily understood. This document can be found at
http://www.dot .ca .gov/hq/ traffops / survey/ pedestrian/ pedbike.htm.
North Carolina: Bicycling and Walking in North Carolina, A Long Range Transportation Plan
(1996)
D eve loped by the Office of Bicycle and Pedestrian Transportation of the NCDOT,
this pedestrian p lan builds upon the C long-range transportation p lan, elaborating
on the goals, focus areas, and programming specific to walking. It also demonstrates a
tech nique for performing a statewide inventory: in the plan-making process, city man-
agers or mayo rs of C communities with populations of at least 1,000 were surveyed
for information on the community's walking environment. The plan summed the
1 63
OREGON
BICYCLE AND PIDFSl'IUAN PLAN
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individual data to obtain the total miles of a particular pedestrian facility in the state.
The plan also discusses crash data and reviews relevant pedestrian content of different
Metropolitan Planning Organization (MPO) plans. The plan formulates actions, sup-
plies funding sources /levels, and calls for an evaluation of projects. This document is
available at http:/ /www.ncdot.org/ transit /bicycle / about/longrangeplan2.pdf.
orth Carolina: Planning and Designing Local Pedestn.an Facilities (1997)
The Local Pedestrian Facilities manual provides suggestions and guidelines for local plan-
ners and traffic engineers to increase pedestrian safety and friendliness. The manual
demonstrates design details for pedestrian treatments and traffic calming. It contains
a table of sidewalk placement and width recommendations according to street type
and gives individual consideration to pedestrians with disabilities as well as pedestrians
in school and work zones. The manual focuses on signage and signalization, treat-
ments often overlooked in pedestrian design manuals. The manual finishes with a
comprehensive matrix summarizing pedestrian problems and possible solutions. It can
be ordered online at http://www.ncdot.org /transit /bicycle /projects /resources /proj-
ects_peddesign.html.
Washington : Pedestrian Fa cilities Guidebook (199 7)
The purpose of the Pedestrian Facilities Guidebook is to assist various agencies and
organizations in pedestrian planning and encourage good design practices when
developing these spaces. It discusses the importance of construction, maintenance,
and operations. The guidebook presents the needs and characteristics of pedestrians
and then provides several toolkits, highlighting important information in boxes, tables,
diagrams, and graphs. The guidebook gives attention to the spatial needs of all types
of pedestrians. The toolkits address the design of important walking facilities like
trails, sidewalks, intersections, and crossings, and they also discuss important accessi-
bility issues and school zone safety. The guidebook provides an opportunity for citizen
comments through a request form and a detailed resource guide. For further informa-
tion, visit the Web site http://www.wsdot.wa.gov /EESC /Design /DesignManual/ de-
sEnglish / 1025-E. pdf.
Penn!Jlvania: Pedestn'an Planning and D esign Guidelin es (1996)
The Pedestrian Planning and D esign Guidelin es is one part of the Statewide Birycle and Pedes-
tn.an Master Plan for Pennsylvania. The plan-making process involved a comprehensive
public outreach program that held workshops across the state, established a toll-free
number and questionnaire, and included representatives from several stakeholder
groups. The Pedestn·an Planning and D esign Guidelin es act as a guide for PENNDOT and
localities to make the current transportation system more accessible to pedestrians.
The guide recognizes the importance of incorporating pedestrians into land use and
planning policies and discusses ways to retro-fit existing developments to better serve
pedestrians. The design guidelines focus on be st practices for sidewalks, intersections,
and other crossings. This document can be found b y visiting http:/ /www.dot.state.
pa.us.
Appendix F: Reference Guide and Plan Summaries
District of Columbia: Treffic Calming Policies and Guidelines (2002)
To reduce the negative impact of motor vehicle use and ensure overall safety, the
District of Columbia Traffic Calming Policies and Guidelines provide a process for involving
the public in implementing traffic calming measures. It supplies a formal request form
for citizens and describ es the process from request to implementation. The document
presents criteria for rating and selecting traffic calming projects when competing for
specific funding. Also, it describes and diagrams traffic calming measures approved
for the District of Columbia. The document is available at http://www.ddot.dc.gov /
ddot/lib / ddot/ services / pdf / traffic_calming. pdf.
Idaho: Biryc!e and Pedestrian Transportation Plan (199 5)
This document serves as a first step in establishing a statewide vision and comprehen-
sive approach to pedestrian transportation planning. It provides a clear, simple state-
ment of goals and objectives as well as action strategies, policies, statutes, and design
standards that can be used to meet those goals. It provides guidelines pertaining to
pedestrian facilities combined with helpful planning and design information for local
age ncie s. It can be found at http:/ /itd.idaho.gov /planning/reports/bikepedplan/idt.
pdf.
Wisconsin: Pedestrian Poliry Plan 2020 (2001)
This statewide pedestrian plan focuses on the policies and programs th at will help
improve conditions for walking. The plan was conceived with assistance from the
P edestrian Plan Citizen's Advisory Committee and citizens around the state provided
additional insights, suggestions, and reactions through public sessions and hearings as
well as focus group meetings; thi s enables the plan to better reflect citizen concerns.
The plan is meant to be used by local traffic officials seeking guidance to meet pe-
destrian needs on local road systems. It can be found at http:/ /www.d ot.wisconsin.
gov /projects/ state / ped2020.htm.
Local Guides
Denver, CO: Pedestrian Master Plan (2004)
The plan establishes a city-wide pedestrian network. It uses a detailed de velopment
process that incorporates existing conditions assessment, existing plans, GIS studies,
public involvement, and policy review. Development of the plan included two rounds
of public works hops and input from an inter-agency advisory team. The plan uses
GIS analysis to measure potential pedestrian activity b y locating concentrations of pe-
destrian destinations; GIS allows for a systematic strategy for building, improving, and
maintaining the pedestrian infrastructure. The plan prioritizes projects with a scoring
system and provides several funding so urces . It can be found at http:/ /www.denver-
gov.org/Transportation_Planning/ 141113406template3jump.asp.
165
DISTRICT OF COLUMBlA.
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POLICIES ANO GUIDELINES
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How to Develop a Pedestrian Safety Action Plan
Marina, CA: Pedestrian and Biryc/e Master Pian (2003)
This plan contains a clear outline and discussion of goals and action strategies. It
offers a comprehensive street inventory and assessment of deficiencies. The plan
suggests changes to the pedestrian environment and sets guidelines for different size
roadways. It uses several graphic examples, describes design details, and mentions
proper placement to enhance the walking environment. The plan can be downloaded
from the Web site http:/ /www.lgc .org/ marina /.
Bellevue, WA : Pedestrian and Biryc/e Transportation Pian Update (1999)
This is a policy-oriented document that aims to revise the 30-year plan. It presents
key issues that have appeared during the implementation of pedestrian facilities, prov-
ing to be a helpful resource for localities considering such improvements. The docu-
ment emphasizes the importance of maintenance policies. It supplies an organized,
informative table that contains description, justification, cost, priority, and jurisdiction
of projects. Find this document online at http:/ /www.ci.bellevue.wa.us/ departments /
Transportation / pdf /PedBikePlan99. pdf.
San Diego, CA: Planning and D esigningfor Pedestrians, Model Guidelin es for the San Diego
Region (2002)
These guidelines provide an extremely thorough look at how to plan and design for
the pedestrian. The plan discusses the land use and community structure elements
that affect the pedestrian environment. It contains a comprehensive list of site and
design details that includes information on considerations, guidelines, example images,
and technical diagrams. The pedestrian measures index is a good tool for identify-
ing appropriate countermeasure to use depending on roadway volume and speed . To
download this plan, go to the site http:/ /www.sandag.org /uploads /publicationid /
publicationid_ 713 _3269. pdf.
Sacramento, CA: Pedestrian Sajery Guidelin es (2003)
These guidelines focus on street crossing treatments at controlled and uncontrolled
intersections, discussing tools such as pavement marking and signal options and giving
attention to roadway design. The guidelines create a four level system to address cross-
walk placement for uncontrolled locations as well as a matrix of appropriate treat-
ments for streets with different numbers of lanes, average daily traffic volume (ADT),
and posted speed. The Sacramento plan is available online at http:/ /www.cityofsacra-
mento.org/ dsd / dev _eng_finance / entitlements /pdfs /ped_safety.pdf.
Portland, OR-Pedestrian Master Pian (1998)
The Master Pian outlines an action plan to achieve the city's pedestrian-oriented goals.
To identify needed improvements, the plan used a rigorous identification process,
including several opportunities for public input. Data collection included citizen
requests, street inventories, and an examination of crash data. Using GIS mapping
capabilities, it developed a Pedestrian Potential Index, which measures the strength of
Appendix F: Reference Guide and Plan Summaries
environmental fa ctors (policy, proximity, and quantitative) that favor walking, and a
D eficiency Index, which measures how critically pedestrian improvements are needed
based on traffic volum es, crash data, and a lack of sidewalks. The plan contains a
section on sources and s trategies for obtaining funding. It also presents a graph of
the past pedestrian funding and gives five different scenarios for the implementation
of future pedestrian improvements. For more on this plan, visit the Web site https:/ /
www.portlandonline.c om/ shared/ cfm / image.cfm?id =90244.
Madison, W1 : Pedestrian Transportation Plan (1997)
This plan dedicates a significant section to the history and importance of pedestrian
planning, as well as "thinking like a pedestrian." It includes a hypothetical walking
tour of photographs that reveal possible locations for pedestrian improvements. It
incorporates planning, design, and maintenance into long-term goals and objectives.
The plan emphasizes the importance of education and encouragement of pedestrian
travel as integral to the success of pedestrian transportation. For more on this plan,
visit the site http:/ /www.cityofmadison.com /transp /PedTransPlanTableOfContents.
html.
Chapel Hi!~ C: Birycle and Pedestrian Action Plan (2 004)
This is a concise, general plan that provides a foundation for future pedestrian plan-
ning. The plan contains information on policies and guidelines that should be used
in planning for future pedestrian needs. It discusses how to encourage pedestrian
movement, highlighting characteristics and influences on pedestrian travel. The plan
reinforces design guidelines from previous studies and establishes local standards for
streets. Finally, it addresses the role of the state, MPO, university and private devel-
opers in the identification of projects and funding process. This plan is available at
http://townhall.townofchapelhill.org/ planning/bikeped /bikepedplan.htm.
Oakland, CA: Pedestrian Master Plan (2002)
The plan is a fine example of how to examine census information and pedestrian
collision data, showing graphs on speed, location, time of day, age, etc. The develop-
ment of the plan involved an extensive community outreach process with technical
and citizen advisory board, as well as neighborhood meetings. The plan identifies a
pedestrian route system through the city from the specified criteria and then focuses
improvements in those areas first. It contains comprehensive descriptions and graph-
ics of design details and provides a detailed implementation plan with prioritization
and cost of individual projects. To find this plan online, go to http:/ /www.oaklandnet.
com/ government/ p edestrian/ index.html.
Cambridge, MA: Pedestrian Plan (2000)
This is a beautiful and creative plan that addresses safety and walkability. It begins
with general pedestrian issues and then moves on to specific action in Cambridge. The
analysis tools include census data and an examination of the pedestrian environment.
The plan separates pedestrian de sign guidelines from roadway issues and vehicular
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How to Devel o p a Pedestrian Safety Action Plan
movements, allowing for the safety issues to be addressed from different, independent
viewpoints. For the pedestrian improvements specific to Cambridge, the plan classi-
fies the city into nodes, spines, and other areas pedestrians are most likely use. It then
presents needed actions to improve the space. This plan is available at
http://www.cambridgema.gov/ ~CDD /et/ ped/ plan /ped_plan.html.
Phoenix, AZ: Pede strian Plan 2000 (1999)
The Maricopa Association of Governments plan promotes the accommodation of
pedestrian travel throughout the low-density, automobile-oriented Phoenix metropoli-
tan area. It uses a two-step process in creating roadway design guidelines: (1) the La-
tent Demand Model estimates potential pedestrian activity based upon the frequency
and proximity of adjacent trip generators, and (2) the Roadside Pedestrian Condition
Model analysis statistically separates results based on roadway and traffic variables.
The focus of the plan is on providing sidewalks and lateral separation (buffer). The
online version of this document is available at http://www.mag.maricopa.gov/pdf/
cms.resource /ped-plan2000sum-web_ 427.pdf.
Seattle, WA: Regional Birycle and Pedestn·an Implem entation Strategy for the Central Puget Sound
Region (2002)
This regional plan identifies more than 2,000 miles of needed bike lanes and paths and
pedestrian improvements around activity centers. It can be found online at http://
www.psrc.org / projects / nonmotorized / strategy.pd£.
Boulder, CO: Transportation Master Plan (2003)
Pedestrian planning is fully integrated into the Boulder, CO Transportation Master Plan.
The plan outlines modal split targets of 15 percent by bike and 24 percent by foot by
2020 and offers a variety of resources to transportation officials seeking to increase
pedestrian travel. More about the plan and its elements can be found at http:/ /www.
ci.boulder.co.us / publicworks / depts / transportation / tmp.html.
Appendix G: Pedestrian -Related Land Use Planning Resources
Access Management
Appendix G:
Pedestrian-Related Land Use
Planning Resources
Access Management Awareness Prqject, Iowa State University. Available o nlin e at http://
www.ctre.iastate.e du /Research/ access/ (includes report, case studies, and toolkit).
Giguere, Ronald K., Access Management in the New Millennium, TRB Committee on Ac-
cess Management (A1D07). Available online at http://gulliver.trb.org/publicatio n s/
millennium /00000.pdf.
TRB Access Management Committee. Available online at http://www.accessmanage-
ment.gov/.
Access Management, Victoria Transport Policy Institute. Available online at http:/ /www.
vtpi.org/tdm/tdm1 .h tm.
Site Planning and Design
D esign and Safety of Pedestrian Facilities : A Propos ed Recommended Practice of the Institute of
Transportation Engineers, ITE Technical Council Committee SA-5.
Jarvis, Frederick D., Site Planning and Community D esign for Great Neighborhoods, Home
Builder Press, 1993.
Lynch, Kevin, Site Planning, MIT Press, 1984.
Rub en stein, Harvey M., Pedestrian Malls, Streetscapes, and Urban Spaces, Wiley, 1992.
169
170 How to Develop a Pedestrian Safety Action Plan
Untermann, Richard K., Accommodating the Pedestrian, Adapting Towns and Neighborhoods
for Walking and Bicycling, Van Nostrand Reinhold Company, 1984.
Russ, Thomas H., Site Planning and Design Handbook, McGraw Hill: Boston, Massachu-
setts, 2002.
Vernez-Moudon, Anne, et al., Effects of Site Design on Pedestrian Travel in Mixed-Use
Medium Densiry Environments, Transportation Research Record 1587. Available online at
http://www.enhancements.org/trb%5C1578-07.pdf.
Street Connectivity
Dill, Jennifer, Measuring etwork Connectiviry for Bicycling and Walking, School of Urban
Studies and Planning, Portland State University. Availa ble online at http:/ /web.pdx.
edu/-jdill/Dill_ACSP _paper_2003.pdf), 2003.
Handy, Susan, R. Paterson, and K. Butler, Planningfor Street Connectiviry: Gettingfrom Here
to There, Planning Advisory Service Report 515, American Planning Association, 2004 .
Roadwqy Connectiviry : Creating More Connected Roadwqy and Pathwqy Networks. Available
online at http://www.vtpi.org/tdm/tdml 16.htm.
Transit Accessibility
Jeng, One-Jang and George Fallat, Pedestrian Sefery and Mobiliry Aids for Crossings at Bus
Stops, Rep ort No. FHWA-NJ-2003-013, Federal Highway Administratio n , Washington,
D.C., September 2003. Available online at http://www.transportation.njit.edu/nctip/
final_ report/Pedes trianSaf ety. pdf.
Khan, Arif., Pedestrian-Transit Connection Ana/ysis, Alta Planning and Design, Portland,
OR. Available online at http:/ /www.americawalks .org/PD F _PAPE/Khan.pd£.
Moundon, Anne Vernez and Paul M. Hess, Pedestrian Sefery and Transit Corridors, Wash-
ington State Transportation Center, Rep ort No. WA-RD-556.1, Washington D epartment
of Transportation, January 2003. Available online at http://www.wsdot.wa.gov/ ppsc/
research/ CompleteReports /WARD 556_ 1 P ed_Safe_ Transit_ Corridor. pdf.
Texas Transportation Institute (ITI), Guidelines for the Location and Design of Bus Stops,
Transit Cooperative Research Program, No. 19, National Academy Press, Washington,
D.C., 1996. Availa ble online at http://trb.org/news/blurb_detail.asp?ID=2597.
Transportation Resource Associates, Transit Bus Sefery Program, Federal Transit Associa-
tion, Washington, D.C., March 2001.
Tucker, Lisa E., SeferStopsfor Vulnerable Customers, Rep ort No. CTR-473-13, Na-
tional Center for Transit Research (NCTR), US-DOT, Washington D.C., March 2003.
Available online at http:/ /www.dot.state.fl.u s/research-center/Completed_Proj/Sum-
mary_PTO/FDOT_BC137 _38_SS.pdf.
Appendix H: Ch ec kl ist fo r En g i neerin g and Pl ann i ng Solut io ns
Appendix H:
Checklist for
Engineering and
Planning Solutions
This section lists effective and commonly used pedestrian crash countermeasures,
I each with a brief description. It follows the outline provided in Ch apter 5, al-
though the order may be slightly different in some places. Please fill in the blanks with
information on whether or not your agency has adopted these practices; if not, what
changes in your policies would be required for these countermeasures to become
"routine accommodation"?
I. Walking Along the Road Crashes
Rural environments
Paved shoulders p rovide room for pedestrians to walk away from traffic; they also
provide room for bicyclists and increase safety for motor vehicle operators. To be ef-
fective, paved sh oulders should be 1.8 m (6 ft) wide or more; 1.2 m (4 ft) is considered
the minimum acceptable width.
D D o you routinely provide paved shoulders on rural highways and trunk roads?
Yes I No
D If yes, please state your policy: ___________________ _
D If not, what ch ange(s) need to be instituted to ensure shoulders are routinely
provided? __________________________ _
Urban and suburban environments
Sidewalks reduce walk-along-the-road crashes by providing positive separation from
traffic. Continuou s and connected sidewalks are needed along both sides of streets to
prevent unnecessary street crossings. Sidewalks should be buffered with a planter strip
to increase pedestrian safety and comfort; separation makes it easier to meet ADA
requirements for a continuous level passage and for a clear passage around obstacles.
171
172 How to Deve lop a Pedestrian Safet y Action Plan
D Do you routinely provide sidewalks on urban and suburban arterials? Yes /No
D If yes, please state your policy: ___________________ _
D If so, what is the standard width? ________ _
D Are your sidewalks curbtight or separated? ______ _
D What change(s) need to be instituted to ensure separated sidewalks are routinely
provided? ----------------------------
Driveways clearly mark the area where motorists will be crossing the pedestrian's path.
Continuous access to parking creates long conflict areas between pedestrians and mo-
torists; this ambiguity complicates the motorist's task of watching for pedestrians.
D Do you routinely ensure that access points are limited and well defined? Yes/ No
D If yes, please state your policy: ___________________ _
D If not, what change(s) need to be instituted to ensure access points are well
defined? __________________________ _
Driveways should be designed to look like driveways, not street intersections: side-
walks should continue through the driveway, the level of the sidewalk should be
maintained, and the driveway should be sloped so that the motorist goes up and over
the sidewalk. Driveways should be away from intersections. The number and width of
driveways should be minimized.
D Do you routinely require that driveways be located away from intersections and
designed to look like driveways, not intersections? Yes/No
D If yes, please state your policy: ___________________ _
D If not, what change(s) need to be instituted to ensure driveways are properly
designed and located? _______________________ _
Illumination greatly increases the motorist's ability to see pedestrians walking along the
road at night. Double-sided lighting illuminates both sidewalks for increased pedes-
trian safety.
D Do you routinely provide illumination on both sides of the street? Yes /No
D If yes, please state your policy: ___________________ _
D If not, what change(s) need to be instituted to ensure streets are well lit?
II. Crossing the Road Crashes
Pedestrian crossing islands reduce crashes substantially at uncontrolled locations,
especially on busy multilane streets where gaps are difficult to find. An island breaks
an otherwise complex crossing maneuver into two easier steps: a pedestrian looks left,
finds an acceptable gap in one direction, crosses to the island, then looks right and
finds a second gap.
Appe ndi x H: Check li st for Engi neer i ng and Pl anning So lutions
D Do you routinely provide pedestrian crossing islands at identified crossing points?
Yes / No
D If yes, please state your policy: ___________________ _
D If not, what change (s) need to be instituted to ensure islands are provided?
Curb extensions reduce the total crossing distance on streets with on-street parking
and increase visibility: the waiting pedestrian can better see approaching traffic and
motorists can better see pedestrians waiting to cross the road, as their view is no lon-
ger blocked by parked cars.
D Do you routinely provide curb extensions at identified crossing points? Yes / No
D If yes, please state your policy: __________________ _
D If not, what change (s) need to be instituted to ensure curb extensions are provided?
Illumination greatly increases the motorist's ability to see pedestrians crossing the
road. Increased lighting should be provided at the primary crossing points. Double-
sided lighting should be provided along wide arterial streets; this enables motorists to
see pedestrians along the road, who may decide to cross anywhere, anytime.
D Do you routinely provide illumination at identified crossing points? Yes /No
D If yes, please state your policy: ___________________ _
D If not, what change (s) need to be instituted to ensure illumination is provided?
Ill. Popular Crossing Solutions and How to Improve Them
The public often responds to a tragic pedestrian crash with a call for an immediate so-
lution. Commonly requested solutions include traffic signals, flashers, overcrossings or
undercrossings, or marked crosswalks. While these can be effective solutions in certain
places, in some instances they are not appropriate or effective.
Traffic Signals
The primary purpose of a traffic signal is to create gaps in traffic that otherwise would
be hard to find. The MUTCD warns against the overuse of signals for a variety of
reasons. Inappropriate traffic signals may increase crashes. Traffic signals are expen-
sive, from $35,000 to $300,000 for one intersection, not including any associated road
widening.
But in some cases, the only solution to crossing a busy, multilane arterial street is to
install a pedestrian crossing signal. This is especially true in locations where there is no
other signal for 0.4 km (0.25 mi) or more in an area with lots of pedestrian activity.
173
174 How to Develop a Pedestrian Safety Action Plan
Improving Traffic Signals
Traffic signals may be the only way to create a gap for pedestrians to cross bus y multi-
lane highways with significant volumes. Since it is difficult to meet MUTCD warrants
for a pedestrian signal based solely on existing pedestrian counts, it may be necessary
to anticipate how many pedestrians might cross once a signal is installed. A median
island and a two-stage pedestrian crossing help reduce impacts on traffic flow: the
pedestrian stops one direction of traffic at a time, and the two crossings are separated
at a fenced-in median island.
D Do yo u install traffic signals based on anticipated pedestrian volumes? Yes / No
D If yes, please state your policy: __________________ _
D If not, what change(s) need to be instituted so warranted signals are provided?
Overcrossing or Undercrossing
These solutions are appealing because they give the impression of complete separa-
tion of pedestrians from motor ve hicle traffic. In practice, this rarely occurs because:
1. Overcrossings and undercrossings are expensive and cannot be provided at most
locations where pedestrians want to cross.
2. Undercrossing are often prone to security problems due to low visibility.
3. The out-of-distance travel is so inconvenient many pedestrians will refuse to walk
this extra distance and cross at-grade.
4. Overcrossings or undercrossings are seldom used, and motorists are frustrated
when they see pedestrians crossing in the vicinity of an overcrossing or undercross-
ing; this in turn increases the risk to pedestrians crossing at grade.
The high cost of an overcrossing or undercrossing makes them impractical for all but
a few locations.
Improving Overcrossings and Undercrossings
D Do yo u install separated crossings based on well-defined criteria? Yes / No
D If yes, please state yo ur policy: ___________________ _
D If not, what change (s) need to be instituted so separated cros sings are provided
only where warranted? _______________________ _
Marked Crosswalks Without Additional Crossing Treatments
Marked crosswalks (wi thout additional crossing treatments) should only be installed
where there is an expectation of a significant number of pedestrians such as near a
school, park or other generator. Without the associated features mentioned so far
(islands, curb extensions, illumination etc.), marked crosswalks on their own do not
Append ix H: Check li st for Engineering an d Pl anning Sol utions
necessarily increase the security of a pedestrian crossing the street. The most recent
study on marked crosswalks can be downloaded at http:/ /www.walkinginfo.org/rd/
devices.htm. In general, the results can be summarized as follows:
• Two-lane roads: no significant difference in crashes.
• Multilane roads (three or more lanes):
• Under 12,000 ADT: no significant difference in crashes.
• Over 12,000 ADT without median: crashes at marked crosswalks > crashes at
unmarked crosswalks.
• Over 15,000 ADT and with median: crashes at marked crosswalks > crashes at
unmarked crosswalks.
The study also made the following observations:
• Medians reduce crashes by 40 percent.
• Pedestrians over 65 are over-represented in crashes relative to crossing volumes.
• No evidence was found to indicate that pedestrians are less vigilant in marked
crosswalks.
• Looking behavior increased significantly after crosswalks were install ed.
D Do you have a program for evaluating, upgrading and installing marked crosswalks
at unsignalized locations? Yes /No
D If yes, please state your policy:--------------------
0 If not, what change (s) are needed to ensure that this occurs?
Textured and / or colored crosswalks are another popular request. In reality, they are
often less visible to motorists than white marked crosswalks, may create maintenance
problems, and are difficult for pedestrians with disabilities to negotiate.
Improving Marked Crosswalks
Using high visibility markings ensures that motorists see the crosswalk as well as the
pedestrian.
D Do you routinely install high-visibility crosswalks? Yes /No
D If yes, please state your policy: __________________ _
D If not, what change (s) need to be instituted to ensure that high-visib ility crosswalks
are provided?
Crosswalks with advance stop bars (or yield lines) help prevent "multiple-threat"
crashes on multilane streets. These occur when a motorist in the outside lane stops to
let a pedestrian cross and-by stopping so close to the crosswalk-masks a vehicle in
the adjacent lane who is not slowing down. The second motorist does not have time
to react, and the pedestrian is struck at high speed. The advance stop b ar (or yield line)
175
176 How to Develop a Pedestrian Safety Action Plan
encourages the first motorist to stop back 9.1 m (30 ft)-plus or minus a di stance-so
the pedestrian can see if a motorist in the second lane is not stopping. This enables
the pedestrian to wait or even pull back if he has started to proceed into the second
lane.
D Do you routinely install advance stop bars at crosswalks on multilane streets?
Yes/ No
D If yes, please state yo ur policy: ___________________ _
D If not, what change (s) need to be instituted to ensure that advance stop bars are
provided?
Proper signing increases the motorist's awareness of a pedestrian crossing.
D Do yo u routinely provide signing at pedestrian crossings? Yes /No
D If yes, please state yo ur policy: __________________ _
D If not, what change (s) need to be instituted to ensure that signing is provided?
Illumination increases the motorist's ability to see pedestrians crossing the road.
D Do yo u routinely provide illumination at pedestrian crossings? Yes /No
D If yes, please state yo ur policy: ___________________ _
D If not, what change (s) need to be instituted to ensure that illumination is provided?
IV. Intersection Geometry
Intersection geometry has a profound effect on pedestrian safety as it determines to
a large extent whether or not motorists will perceive pedestrians, the length of cross-
walks, and the speed of approaching and turning ve hicles.
D Do yo u have an intersection design policy that takes pedestrian safety into account?
Yes / No
D If yes, please state yo ur policy: ___________________ _
D If not, what change (s) need to be instituted to ensure that pedestrian safety is
considered?
Tighter radii benefit pedestrians by shortening the crossing distance, bringing cross-
walks closer to the intersection, increasing visibility of pedestrians, and slowing
right-turning ve hicles. The appropriate radius must be calculated for each corner of an
intersection; di f ficult turns for the occasional event are acceptable (for example a large
moving truck turning onto a local street).
Appendix H: Checklist for Engineering and Planning Solutions
D Do you routinely encourage tight radii at urban/suburban intersections? Yes /No
D If yes, please state yo ur policy: ___________________ _
D If not, what change (s) need to be instituted to ensure that tight radii are provided?
Pork-chop islands between an exclusive right-turn lane and through lanes shorten the
crossing distance, reduce pedestrian exposure and improve signal timing. The island
enables pedestrians and motorists to negotiate one conflict separately from the others.
The island should have the longer tail pointing upstream to the approaching right-turn
motorist; so motorists approach at close to 90° and are looking at the crosswalk. The
crosswalk is placed one car length back from the intersecting street so the motorist
can move forward once the pedestrian conflict has been resolved. The right-turning
motorist can focus on traffic and the pedestrian can focus on cross or through traffic.
D Do you routinely provide pedestrian-friendly pork-chop islands (lo ng tail design) at
right-turn lanes? Yes / o
D If so, are they designed to enhance pedestrian safety?
D If not, what change (s) need to be instituted to ensure that well designed islands are
provided?
Median islands channelize and slow down left-turning vehicles . An island provides
pedestrians a refuge for long, unsignalized crossings or if a conflict cannot be avoided,
though signalized intersections should be designed to allow pedestrians to cross the
entire street during a single signal cycle.
D Do you routinely provide median islands at intersections? Yes/ No
D If so, are signals times so pedestrians can cross in one cycle?
D If n ot, what change (s) need to be instituted to ensure that islands are provided?
Proper crosswalk and curb ramp placement and design ens ures that all users cross
in crosswalks, close to the intersection, where motorists can see them, and without
undue delay. Ramps (wings not included) must be wholly contained within the marked
crosswalk. Poorly placed or oriented ramps force wheelchair users to make long de-
tours and they may not cross in the allotted time at a signalized intersection; they may
be crossing outside the crosswalk lines where motorists do not expect them.
D Do you routinely provide crosswalks and ramps at all corners of all intersections?
Yes / No
D If yes, please state yo ur policy: __________________ _
D If so, are they designed to enhance pedestrian safety?
177
17 8 How to Deve lop a Pedestrian Safety Action Plan
D If not, what change(s) need to be instituted to ensure that crosswalks and ramps are
provided?
V. Signalized Intersections
All signalized intersections where pedestrians are reasonably expected to cross should
have the elements described in the following sections.
Pedestrian signals ensure that pedestrians know when the signal phasing allows them
to cross, and when they should not be crossing. On one-way streets a pedestrian ap-
proaching from the opposite direction cannot see the vehicle signal heads and may not
realize an intersection is signalized, nor know when it is safe to cross. Left turn arrows
are not visi ble to the pedestrian.
D Do you routinely provide pedestrian signals at signalized intersections? Yes/ No
D If yes, please state yo ur policy:--------------------
0 If not, what change(s) need to be instituted to ensure that pedestrian signals are
provi ded?
Marked crosswalks indicate to the motorist where to expect pedestrians and help
keep the crossing area clear of vehicles. All legs of a signalized intersection should be
marked.
D Do yo u routinely provide marked crosswalks at signalized intersections? Yes / No
D If yes, please state yo ur policy: __________________ _
D If not, what change (s) need to be instituted to ensure crosswalks are provided?
It is important to provide a WALK signal long enough to get pedestrians started, and
a clearance interval long enough to ensure that a pedestrian can full y cross the street.
Traditionally, 1.2 m / s ( 4 ft/ s) is assumed adequate, though 1.1 m / s (3.5 ft/s) or even
0.9 m /s (3 .0 ft/s) may be appropriate at locations that have a substantial number of
older pedestrians or pedestrians with mobility impairments.
D Are your signals timed to give pedestrians adequate time to cross? Yes / No
D If yes, please state yo ur policy: ___________________ _
D If not, what change (s) need to be instituted to ensure enough time is provided?
Push buttons should be located where a pedestrian who is in a wheelchair or is visu-
all y-impaired can easily reach them, and positioned so that they clearly indicate which
Appendix H: Checklist for Engineering and Planning Solutions
crosswalk the button regulates. Push buttons mounted on two separate pedestals work
best, as it is nearly impossible to place two push buttons correctly on one signal pole.
Push buttons are not needed in downtown/ central business districts and other area of
high pedestrian use where pedestrians can be expected at every signal cycle.
D Do you routinely place pedestrian push buttons where they can be reached?
Yes I No
D If yes, please state your policy: __________________ _
D Do you routinely avoid using pedestrian push buttons in downtown/ central
business districts and other areas of high pedestrian use? Yes/No
D If not (either question), what change(s) need to be instituted to ensure that push
buttons are accessible?
Signal timing techniques to reduce the incidence of crashes that occur while the pe-
destrian is crossing with the WALK signal include:
1. Protected left-turn phases that allow pedestrians to cross without interference from
left-turning motorists. Red (then green) left turn arrows make it clear to motorists
they must wait before turning (especially important where there are double right or
double left turns).
D Do you routinely provide protected left turns at signalized intersections? Yes/ No
D If yes, please state your policy: __________________ _
D If not, what change(s) need to be instituted to ensure that protection is provided?
2. Lead Pedestrian Intervals (LPis) reduce conflicts between turning vehicles and
pedestrians when turning vehicles encroach onto the crosswalk before pedestrians
leave the curb. The LPI releases pedestrians 3 to 5 seconds prior to the green light
for vehicles so pedestrians can enter and occupy the crosswalk before turning mo-
torists enter it.
D Do you provide an LPI at signalized intersections with known turning conflicts?
Yes I No
D If yes, please state your policy:--------------------
0 If not, what change(s) need to be instituted to provide a LPI where helpful?
3. Pedestrian countdown signals indicate to the pedestrian how much time is left in the
pedestrian clearance interval, encourage pedestrians to finish crossing before the
crossing time runs out, and reduce the number of pedestrians who initiate a cross-
ing too late in the cycle.
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180 How to Deve lop a Pedestrian Safe t y Action Plan
D Do you provide countdowns at signalized intersections where it would help?
Yes I No
D If yes, please state your policy:--------------------
0 If not, what change (s) need to be instituted to provide countdowns where helpful?
VI. Other Techniques to Create a Better Pedestrian Environment
&ad Diets
Reducing the number of travel lanes a pedestrian has to cross can be beneficial to all
users. A well-documented technique takes a four-lane undivided street (two lanes in
each direction) and reconfigures it to two travel lanes, a center-turn lane, and two bike
lanes (without changing the curb lines). The benefits for pedestrians include fewer
lanes to cross and slower traffic speeds. The center-turn lane also creates space for
pedestrian crossing islands. The bike lanes add a buffer for pedestrians as well as a
place for bicyclists to ride. Variations include reducing a multilane one-way street by
one lane; narrowing the travel lanes to slow traffic and create space for bike lanes; or
moving the curbs in to narrow the roadway.
D Do you routinely consider reducing the number of travel lanes where practical?
Yes / No
D If yes, please state your policy:--------------------
0 If not, what change (s) need to be instituted to ensure that road diets are
considered?
Arterial Street D esign
High speeds make it harder to avoid a crash and increase the severity of a crash or
the likelihood of a fatality. Speed reduction should be a primary tool in reducing
pedestrian crashes. Simply lowering speed limits is usually ineffective. Streets must be
redesigned to encourage lower speeds.
D Are yo ur design standards predicated on slow speeds in urban environments?
Yes / No
D If yes, please state your policy:-------------------
0 If not, what change (s) need to be instituted to ensure that speeds are reasonable in
urban areas?
Residential Street D esign and Traffic Calming
Residential streets built in the last few decades are often wide and barren, encourag-
ing speeds higher than appropriate for streets where children can be expected. Good
Appendix H: Checklist for Engineering and Planning Solutions
residential street designs are narrow and have on-street parking, tight curb radii, short
block length, buffered sidewalks with street trees, short building setbacks, and street-
lights.
D Have you adopted pedestrian-oriented residential street design standards? Yes /No
D If yes, please state yo ur policy:--------------------
0 If not, what change (s) need to be instituted to change yo ur standards?
Traffic calming slows traffic inside neighborhoods. Common techniques include speed
tables or humps, traffic circles, diverters, chokers, and chicanes to break up long,
straight streets.
D Do you routinely consider traffic calming on neighborhood streets? Yes /No
D If yes, please state your policy: ___________________ _
D If not, what change (s) are needed to institutionalize traffic darning?
VII. Transit-related Crashes
Many crashes involve a pedestrian crossing the street to access transit. All street-cross-
ing techniques are applicable to transit stops. Transit providers and road authorities
should ensure that all transit stops are accessible to all pedestrians. The following poli-
cies are recommended:
All stops should consider the safety of the pedestrian crossing-not necessarily a
marked crosswalk at each stop location; rather, locating stops where it is possible for a
pedestrian to cross safely at or very near the stop.
D D o you collaborate with transit providers to ensure pedestrians can cross the street
wherever there is a transit stop? Yes /No
D If yes, please state yo ur policy:--------------------
0 If not, what change (s) need to be instituted to ensure that transit stops are safer?
Provide a safe place to stand and wait at transit and school bus stops, even if there are
no sidewalks. Transit stops with a lack of space push people out into the roadway.
D D o you collaborate with transit providers to ensure stops have a hard surface?
Yes I No
D If yes, please state yo ur policy: ___________________ _
D If not, what change (s) need to be instituted to ensure transit stops are paved?
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182 How to Devel op a Pedestrian Safety Action Plan
Sidewalks or paved shoulders provide pedestrian access to all transit stops.
D Do you collaborate with transit providers to ensure stops are accessible? Yes/ No
D If yes, please state yo ur policy:--------------------
0 If not, what change(s) need to be instituted to ensure transit stops are accessible?
Lighting should be provided at or near all bus stop locations.
D Do you collaborate with transit providers to ensure stops are lit? Yes / No
D If yes, please state yo ur policy:--------------------
0 If not, what change(s) need to be instituted to ensure transit stops are lit?
The transit agency should also review all its stop locations to facilitate access and
crossing. Techniques include:
1. Eliminating or moving transit stops in areas that are hard to cross.
2. Consolidating closely-spaced stops to limit the number of crossings and improve
transit efficiency (as the buses stop less often).
3. Moving stops to a location where it is easier to cross. In general, farside locations
are preferred for pedestrian safety, as pedestrians can cross behind the bus and the
bus can leave without having to wait for pedestrians to cross. However, there are
locations where a nearside stop may be safer and better for operational reasons.
4. P lacing crosswalks (where warranted) behind the bus stop at midblock locations so
pedestrians can cross behind the bus, where they can see oncoming traffic; it also
enables the bus driver to pull away witho u t endangering pedestrians.
Transit providers also have their concerns:
1. Bus stops should be easily accessible: a stop should not be moved to a far side loca-
tion if this location requires a lot of out-of-direction travel for users.
2. Bus stops should be located where the motorist can easily stop and move back into
traffic again.
3. Bus stops need to be located where passengers with disabilities can board the bus.
D Do you collaborate with transit providers to ensure stops are practical? Yes /No
D If yes, please state your policy: ___________________ _
D If not, what change(s) need to be instituted to ensure transit stops meet the transit
provider's needs?
Appendix H: Checklist for Engineering and Planning Solutions
VIII. Planning Solutions
Land Use and Site Design
Land use patterns impact pedestrian crashes and the general feasibility of walking.
Pedestrian crash severity is higher in suburban, auto-oriented locations where speeds
are faster and motorists do not expect pedestrians. Pedestrian crashes are less severe
in established, traditional urban areas where motorists are more aware of pedestrians.
Sample land use and site design techniques that can encourage more walking and help
manage speed and therefore affect crash rates include:
Buildings should define streets. Buildings located at the back of the sidewalk give the
motorist sense of enclosure; buildings set back with large parking lots in front cre-
ate wide high-speed roads. Mixed-use development can encourage walking trips and
enhance the pedestrian environment. Buildings with retail on the bottom and housing
on the top encourage pedestrian activity.
Street connectivity encourages walking because of the reduced travel distance to reach
destinations (cul-de -sacs without connector paths reduce pedestrian connectivity).
Parking should not be placed between the sidewalk and buildings; on-street parking
can be a very effective way to slow traffic and encourage pedestrian-oriented develop-
ment. The principles of access management should be extended to parking: single lots
serving multiple stores are preferred over single stores each with its own parking lot
and driveway.
D Have you adopted city codes for future development that create a pedestrian-
friendly environment? Yes/ No
D If yes, please state your policy: __________________ _
D If not, what change(s) need to be instituted to change codes?
183
184
Appendix I: Checklist
for Pedestrian Safety
Action Plan
Elements
How to Develop a Pedest rian Safety Action Plan
This checklis t provides effective and commonly used elements of a Pedestrian
I Safety Action Plan (PSAP). The template generally follows the outline of the How
to Develop a Pedesttian Sefe!J Action Plan guide.
To the extent possible, please fill in the blanks prior to the training workshop. On day
two of the training workshop, this checklist will be used to conduct a guided exercise
to create an outline that can later be used as a basis for a PSAP.
I. Goals and Objectives
Commitment to safety for all modes should be the number one goal and priority of
state and local transportation agencies . Once this commitment is made, it allows
transportation agencies to allocate funds to reducing all crash types, including pedes-
trian crashes.
D Do yo u have a clearly stated commitment to safety as your number one priority?
Yes / No
D If yes , please state: ________________________ _
D If not, what change (s) need to be instituted to ensure that safety becomes the
number one priority of your agency? ________________ _
Clear objectives are needed for a pedestrian plan to be successful in reducing pedes-
trian crashes. They allow for the develo pment of practical and achievable strategies;
they also provide a way to measure progress over time. To be effective, objectives
must be specific and measurable.
D Do you have a clearly stated objective for reducing pedestrian crashes? Yes /No
D If yes, please state: ________________________ _
Appendix I: Checklist for Pedestrian Safety Action Plan Elements
D If not, what change(s) need to be instituted to ensure that objectives are adopted?
II. Stakeholders
Individual stakeholder involvement is an excellent way to get a better product. Public
stakeholders should be viewed as partners who are the on-the-ground scouts who
can identify problems, needs and opportunities. To be effective, stakeholders must be
involved in a regular, ongoing and systematic way.
D Do you routinely provide for individual stakeholder involvement? Yes / No
D If yes, please describe: -----------------------
D If not, what change (s) need to be instituted to ensure that stakeholders are
routinely involved?
A Pedestrian Advisory Board (PAB) is another excellent way to get a better product.
They also build public sup port for policies, programs, and projects to reduce pedes-
trian crashes. To be effective, stakeholders must be involved in the review of policies,
programs and projects.
D Do you have a PAB that regularly reviews policies, programs, and projects?
Yes / No
D If yes, please describe: -----------------------
D If not, what change(s) need to be instituted to ensure the creation of an effective
PAB?
Public agency staff in other agencies are also stakeholders. Building positive, working
relationships is essential for coordination on regional planning issues; it also provides
a way to coordinate on solving specific problems such as identifying high crash loca-
tions where additional enforcement may be needed , and coordinating transit stops
with crossing locations.
D Do you routinely coordinate with other agencies on crash, transit, etc., issues?
Yes / No
D If yes, please de scribe: ______________________ _
D If not, what change(s) need to be instituted to ens ure yo u coordinate with other
agencies?
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186 How to Develop a Pedestrian Safety Action Plan
Ill. Data Collection
Computerized, timely, geo-coded pedestrian crash data are essential to identify high-
crash locations, corridors, and/ or larger areas and to select appropriate improvements
to make conditions safer for pedestrians and other roadway users.
D Do yo u routinely collect pedestrian crash data? Yes /No
D If yes, please describe: -----------------------
D If not, what change(s) need to be instituted to ensure that crash data are routinely
collected?
Pedestrian counts along with crossing observations can be very useful in understand-
ing pedestrian behavior and in considering the need for facilities. Counts and behavior
studies, when combined with crash data, can also provide insights into specific crash
causes and potential countermeasures.
D Do yo u routinely collect pedestrian counts and complete crossing observations?
Yes I No
D If yes, please describe: -----------------------
D If not, what change (s) need to be instituted to ensure that pedestrian counts and
observations are routinely completed?
Sidewalk and marked crosswalk (at uncontrolled locations) inventories help identify
system gaps and unsafe conditions. When combined with crash data, pedestrian
counts, and traffic characteristics, they can be very useful in prioritizing locations for
countermeasures and other improvements.
D Do yo u routinely inventory sidewalks and marked crosswalks? Yes/ No
D If yes, please describe: -----------------------
D If not, what change (s) need to be instituted to ensure that inventories of sidewalks
and marked crosswalks are routinely completed?
Inventories of traffic characteristics (s uch as ADT, road widths, and speeds) help
identify likely crash locations. When combined with actual crash data and pedestrian
counts, they can be very useful in prioritizing locations for countermeasures and other
improvements.
D Do yo u routinely inventory roadway ADT, widths and speeds? Yes/ No
D If yes, please describe: ______________________ _
Appendix I: Checklist for Pedestrian Safety Action Plan Elements
D If not, what change(s) need to be instituted to ensure that ADT, width and speed
information is routinely collected and coded?
IV. Analyzing Information and Prioritizing Concerns
Categorizing pedestrian crash data should be done to determine whether they are
occurring at a) spot locations, b) along corridors, c) in a neighborhood area, or d)
throughout an entire jurisdiction (poor standard practice such as failing to install
pedestrian indicators at signals). Once categorized, this information can be used to
focus resources and prioritize projects.
D Do you routinely categorize pedestrian crash data? Yes/ No
D If yes, please describe:----------------------
D If not, what change (s) need to be instituted to ensure that crash data is routinely
categorized?
Conducting field reviews and safety audits can be used to identify how each pedestrian
crash occurred, and what may be done to prevent future similar crashes. The out-
come is a list of improvements that can be implemented to address those crashes and
enhance safety.
D Do you routinely conduct field reviews and safety audits? Yes /No
D If yes, please describe: ______________________ _
D If not, what change (s) need to be instituted to ensure that field reviews and safety
audits are routinely completed? ___________________ _
Crash typing describes the pre-crash actions of the parties involved. When crashes
are "crash typed," a pattern often emerges that helps identify what the problem is and
what countermeasures are generally related to each crash type. Crash typing is particu-
larly useful in developing education and enforcement strategies.
D Do you routinely "crash type" your pedestrian crash data? Yes /No
D If yes, please describe: -----------------------
D If not, what change (s) need to be instituted to ensure that crash typing is routinely
completed? ___________________________ _
Prioritizing pedestrian safety improvements is the final step once all appropriate data
has been collected. Priorities should be established based on a variety of factors
including safety consequences, cost, travel demand, availability of right-of-way, federal
187
188 How to De velop a Pedestrian Safety Action Plan
and/ or state mandates and public support. Solutions can be phased and divided into
temporary or permanent improvements.
D Do you routinely prioritize (rank) pedestrian safety improvements? Yes /No
D If yes, please describe: ______________________ _
D If not, what change(s) need to be instituted to ensure that safety improvements are
routinely prioritized? _______________________ _
V. Providing Funding
Routine accommodation for pedestrians in all projects, programs and maintenance
activities is the most cost-effective funding strategy for reducing pedestrian crashes
and encouraging more walking. The majority of pedestrian infrastructure is built in
conjunction with other projects. It allows for significant improvements over time,
even if there is no special funding available for pedestrian safety improvements.
D Do you routinely include pedestrian safety improvements in all projects, programs,
and maintenance activities? Yes /No
D If yes, please describe:----------------------
D If not, what change(s) need to be instituted to ensure that pedestrian safety
improvements are included?
Dedicated funds and set-asides for pedestrian projects allow for immediate action in
addressing high crash locations, corridors, and other targeted areas. They can be fed-
eral, state or local funds and are often a percentage of another fund.
D Do you routinely set aside funds that are dedicated to pedestrian safety? Yes /No
D If yes, please describe:----------------------
D If not, what change (s) need to be instituted to ensure that funds are routinely set
aside? _____________________________ _
VI. Creating the Pedestrian Safety Action Plan
A Pedestrian Safety Action Plan focuses resources on making the changes that reduce
the greatest number of pedestrian crashes. To be effective, it must provide a frame-
work for involving stakeholders, collecting and anal yzing data, selecting countermea-
sures, developing implementation strategies and providing funding.
D Do you have a Pedestrian Safety Action Plan that includes all these elements?
Yes / o
Appendix I: Checklist for Pedestrian Safety Action Plan Elements
D If yes, please describe: ______________________ _
D If not, what change(s) need to be instituted to ensure that a comprehensive plan is
created? ____________________________ _
Evaluation of results ensures that implemented solutions are effective in reducing
crashes and improving the safety and accessibility of pedestrian facilities; it also helps
ensure future funding opportunities if the plan is perceived as a success. Success
should be measured against the objectives set forth in the Pedestrian Safety Action
Plan-typically to reduce pedestrian crashes by a certain percentage.
D Do you routinely evaluate results of your efforts to reduce pedestrian crashes?
Yes I No
D If yes, please describe: ______________________ _
D If not, what change(s) need to be instituted to ensure that regular evaluation
occurs?
189