HomeMy WebLinkAboutTraffic Calming & Traffic Management - Mass Highway - 2006 Edition
2006 EDITION
Chapter 16
Traffic Calming and Traffic Management
16.1Introduction
This chapter describes a variety of measures that can be used to lower
vehicle speeds, and redirect traffic flows. Traffic calming measures are
physical road design elements intended to reduce vehicle speeds and
improve driver attentiveness. Traffic management measures are the
application of turn restrictions and other measures to redirect or restrict
traffic flows. This chapter places a greater emphasis on traffic calming
measures; however, traffic management strategies are also discussed.
Traffic calming incorporates three major categories of design measures:
Narrowing the real or apparent width of the street.
Deflecting (introducing curvature to) the vehicle path.
Altering the vertical profile of the vehicle path.
These measures are used to reduce operating speeds on a roadway and to
increase driver attentiveness. A major objective of traffic calming is to
reinforce the desired operating speed through design of the facility,
thereby self-enforcing the desired speed. The goal is to:
Reduce the number of motorists exceeding the posted speed limit;
Reduce the speed of all motorists to the desired operating speed; and
In some cases, to support the reduction of posted speed limits.
Desirable operating speeds, regularly requested by those affected by
traffic calming measures (typically residents, business owners/operators,
employees, and business patrons), range from 15 to 30 miles per hour in
residential settings and 20 to 35 miles per hour in commercial or
institutional settings. The selection of appropriate design speeds is
discussed further in Chapter 3 and needs to be informed by existing
operating speeds and applicable speed limits.
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Traffic calming should reduce the operating speed of the street (i.e.
the speed which most motorists intuitively choose) to the target
speed. In many cases, traffic calming is also used to increase the
attentiveness of drivers by signaling a change from the prevailing
roadway conditions. Additional attentiveness is achieved through:
Reduction of operating speeds;
Increase in noticing other important users of the street,
specifically, pedestrians, bicyclists and motorists using on-street
parking;
Heightened awareness of a need for safe driving behavior; and
Elimination of inducements to aggressive and dangerous behavior
(for example, reducing pavement width to stop vehicle overtaking).
16.2Potential Benefits and Impacts
When used in appropriate settings, the reduction in vehicle speeds
obtained through traffic calming measures reduces both the frequency
and severity of collisions. Further, traffic calming measures are also
intended to increase driver attentiveness so that vehicles are less likely to
collide. A number of studies support the correlation between reduced
motor vehicle speed and reduced severity of collisions. For
vehicle/pedestrian collisions, the severity of injuries increases sharply
as vehicle speed increases, as illustrated in Exhibit 16-1. Traffic
calming measures can improve pedestrian accommodation by:
Reducing crosswalk distances, and the extent of pedestrian/motor
vehicle conflict;
Reducing motor vehicle speeds, their stopping distances, and the
severity of pedestrian/motor vehicle conflicts;
Increasing the attentiveness of motor vehicle drivers to the
presence of pedestrians;
Reducing the number of lanes of vehicular traffic, at least for short
segments of streets;
Increasing sidewalk space;
Shielding sidewalks from moving motor vehicles with parked
vehicles, trees, curbs, bicycle lanes and added sidewalk width; and
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Improving yielding to pedestrians due to the reduced sense of
ÐlostÑ time for slowing and resuming speed when compared with
higher speed environments.
Exhibit 16-1
Vehicle Speed and Pedestrian Fatality Rate
Source: Adapted from the Guide for the Planning Design and Operation of Pedestrian Facilities, AASHTO, 2004
The impact on safety for pedestrians is compounded since there are
more suitable gaps for pedestrian crossings, complemented by
improved yielding by drivers. The result is an increase in the ability for
pedestrians to cross a traffic steam of any vehicular volume. The
safety improvement is further compounded by the reduced probability
and severity of injuries resulting from those collisions that do occur.
Traffic calming measures can improve bicycle accommodation by:
Reducing motor vehicle speeds, reducing motor vehicle stopping
distance, and the probability of bicycle/motor vehicle conflicts;
Providing an opportunity to consider installation of bicycle lanes;
Increasing the awareness of bicyclists;
Reducing the severity of motor vehicle/bicycle collisions; and
Reducing intersection size and the probability of motor
vehicle/bicycle conflicts.
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Traffic calming measures can improve motor vehicle accommodation by:
Reducing motor vehicle speed, thus reducing the probability and
severity of crashes;
Reducing the frequency of vehicle overtaking on urban and
neighborhood streets;
Providing design features (for example, roundabouts) that self-
enforce lower vehicular speeds; and
Providing motor vehicle drivers with multiple reminders of safe and
appropriate operating speed.
Although there are numerous possible benefits of traffic calming, there
are several potential disadvantages that must be considered when
developing a traffic calming design. Many of these potential
disadvantages can be mitigated as described below.
Traffic calming measures do not improve safety for motorists who
fail to heed the indications of reduced design speed and operate a
vehicle at speeds in excess of a roadÓs design speed. Advance
signage can help to inform drivers of changes in proper operating
speed when approaching traffic calming areas.
Traffic calming and traffic management measures can slow
emergency response since they often require slower operating
speeds or diversions. It is important to coordinate traffic calming
plans with local emergency response departments so that these
impacts are minimized.
Inappropriately designed or placed traffic calming and traffic
management measures can impede transit vehicles. It is important
to coordinate traffic calming plans with local transit agencies to
avoid these impacts.
Inappropriately designed or placed traffic calming and traffic
management measures can impede large truck traffic. It is
important to understand regional and local truck routes when
developing traffic calming programs to avoid these impacts.
Some traffic calming measures (particularly those involving horizontal
and vertical deflection) can result in increased noise and headlight
impacts to adjacent properties. Traffic calming design needs to be
sensitive to these potential impacts.
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16.3Applicability to Settings and Roadways
Traffic calming measures are usually deployed in response to community
concerns about high motor vehicle operating speeds and volumes. As a
result, traffic calming measures are more often applied in developed
settings such as urban areas, suburban town centers and villages, suburban
high density areas, and rural villages. Typical characteristics of settings
associated with traffic calming are:
Concentrated generators of pedestrian activity; for example, school
campuses, elderly housing, downtown retail districts, ÐMain StreetÑ
shopping areas, public assembly venues (stadiums, auditoriums),
recreation destinations (parks, playgrounds), health care complexes,
and large employers;
Pedestrian activity, either constant or in surges, along and across the
street;
Neighborhood streets where the street serves both as a transportation
facility and a community space;
Sensitive land uses (historical, tourist, retail, civic, institutional)
abutting the street; and
Transition zones, from higher to lower speed, e.g., when approaching
a rural village.
Traffic calming is most often applied to existing streets where vehicle
operating speeds are in conflict with pedestrian activity and other aspects of
the setting as described above. Some traffic calming measures (such as
crossing islands and curb extensions) used as retrofit measures on existing
streets can also be used as regular design elements on new or rebuilt streets.
The needs of the setting must be balanced with the regional mobility
Traffic calming must
function of the roadway when considering traffic calming measures,
strike a balance between
similar to many other aspects of roadway design. Traffic calming
local needs and local
measures discussed in this chapter are most appropriate for local roads
mobility.
and minor collectors. Additional measures suitable for local streets (but
too restrictive for other types of streets) are not discussed in this
chapter, but may be found in the references listed at the end of the
chapter.
In some circumstances, such as in a town center environment, where
both high vehicular and high pedestrian volumes are present, traffic
calming measures can be suitable for use on arterials. In some cases,
these elements, such as crossing islands and curb extensions, can be
Traffic Calming 16-5
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incorporated directly as elements of good design for new roadways.
However, intensive traffic calming programs are usually not applied to
suburban and rural arterials since they primarily provide for regional
travel and the settings for which traffic calming is desired are not usually
found along arterials.
Traffic calming measures are not appropriate for freeways and
expressways. The settings associated with traffic calming are not
present along freeways and expressways. Exhibit 16-2 summarizes the
applicability of various traffic calming measures to various roadway
types under typical conditions. The specific measures are described in
more detail in the following sections.
Exhibit 16-2
Traffic Calming and Traffic Management Applicability by Roadway Type
Major Minor Local
Arterials Collectors Collectors Roads
Street Narrowing
Narrow Lanes
Raised Curbs
Street Furniture
Street Trees
Street Lighting
Spot Narrowing
Medians and Crossing Islands
Curb Extensions
Road Diets
Building Siting
Horizontal Deflection
Chicanes
Crossing Islands/Short Medians
Mid-Block Traffic Circles
Roundabouts
Lane Offsets
Profile Alterations
Speed Humps
Raised Crosswalks
Raised Intersections
Textured Pavement
Traffic Management
Often used for new design or retrofit programs in traffic calming settings
May be suitable
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16.4Spacing and Frequency of Measures
Traffic calming measures which alter the cross section of the street (for
example, on-street parking for a block or more, continuous planting of
street trees) are appropriate for extended lengths. Drivers are more likely
to regard such features as an inherent characteristic of the street and not
as measures ÐaimedÑ at their driving practices.
On the other hand, ÐspotÑ traffic calming measures, applicable to only a
small segment of street (for example, roadway narrowing or speed
humps) should be spaced so that the desired operating speed is
maintained along the roadway segment in question. If measures are
placed more frequently and require excessive slowing and accelerating or
maneuvering, they can become annoying and less effective in controlling
speeds. The particular spacing of elements depends greatly upon the
context in which they are used. For example, with speed humps, the
driver should be cued to their spacing so that a consistent speed is
maintained. Often, speed humps should be visible from one to the next
along a continuous segment of roadway to encourage a flat speed profile
rather than rapid acceleration and deceleration at the speed humps.
In a comprehensive traffic calming plan, continuous street-length
measures (on-street parking, tree planting) are used on streets, such as
the major spine of the area. On other streets within the district, a spacing
of one to two traffic calming measures per block is appropriate.
16.5Measures to Narrow the Apparent Width
Reduction of the apparent street width can be an important traffic calming
element. Elements that influence the apparent width of a street are
illustrated in Exhibit 16-3, listed below, and discussed in the subsequent
sections.
Building placement along the street;
The presence or placement of trees along the street;
Street furniture including lights, benches, and other elements;
Edge treatment of the pavement; and
Pavement cross-section including on-street parking, spot narrowing,
bike lanes, travel lanes, auxiliary lanes, medians, and islands.
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An additional tool for narrowing the apparent width is the use of
gateways, which are also described later in this section.
Exhibit 16-3
Elements of Apparent Street Width
Building mass
and height
Trees
Street
lighting
Planters and
street furniture
Signs
Parked
vehicles
Pedestrian
Curb and gutter
Building
setback
Source: MassHighway
16.5.1Building Placement
In commercial settings, the placement of buildings directly along the
street (i.e., with no setbacks from the right-of-way) is a highly
effective traffic calming measure. Building sites are, by definition,
outside the public right-of-way. Their regulation is usually the
prerogative of local government jurisdictions (city or town). Regulatory
changes, by local governments, to encourage building placement
adjacent to streets, particularly in commercial areas, are effective
complements to traffic calming design.
Placing buildings directly on the street involves no loss in vehicular
service. The quantity, but not the placement, of off-street parking can
remain the same for development, although in practice the improved
walking atmosphere and the availability of on-street spaces reduces
the demand for off-street parking. Drive-through windows can be
placed to the rear of buildings, with no loss in vehicle access. In many
instances, drive-through operations function better when serviced by
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the long drive aisles of joint parking areas located behind the building,
rather than in small parking areas on individual parcels.
To properly support traffic calming in commercial settings, commercial
buildings should be sited along the street as shown in Exhibit 16-4.
Parking lots in front of buildings (i.e., along the street frontage) should
be prohibited. On corner parcels, the building should occupy the corner
itself, with visible off-street parking (if any) at parcel boundaries, as
far from the corner as possible.
Features of building placement that contribute to traffic calming
include:
Sense of enclosure Î With buildings fronting the street, typical
street-side building mass (two story building or equivalent)
encloses the street, from the driverÓs eye point, to a height of
about 30 degrees from horizontal. This visual enclosure is always
greater than that produced by buildings of the same height, but set
back from the street.
Urban Characteristics Î Buildings sited along the street convey a
broad set of signals signifying that the area is a setting requiring
lower vehicle operating speeds. Some elements associated with a
town or village center environment are the detailing of the building
faces, signs and symbols on the buildings, merchandise visible in the
building or displayed on the sidewalk, and on-street parking.
Pedestrians or expectation of pedestrians Î Building
placement directly along the street puts multiple possible origins
and destinations along the street edge. Front doors along a street,
served by on-street parking, assure some level of pedestrian travel
on the sidewalk. The presence of pedestrians, or the expectation
that pedestrians might be present, is an important factor in
reducing vehicle speeds and heightening attentiveness of drivers.
Traffic Calming 16-9
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Exhibit 16-4
Building Siting Guidelines
Source: Adapted from Congress for New Urbanism
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16.5.2Street Furniture
Street furniture elements include signs, signals, street lights, walls,
fencing, and pedestrian furnishings such as benches, shelters and
trash receptacles. In traffic calmed settings, it is desirable for street
furniture to border the street and provide a separation between the
pedestrian pathway and traffic. Poles and planters are normally located
2-3 feet from the back of curb, leaving room for the opening of car doors
or for movement of pedestrians to/from parked automobiles, as shown in
Exhibit 16-5. Benches, kiosks and shelters should allow sufficient space
(6-8 feet from curb) for the comfort of their users.
Exhibit 16-5
Desirable Street Furniture Setbacks
Building
(Typical)
Vertical Curb
Travelled Way
2-3Clear Walking Path
Setback5 Setback
Source: MassHighway
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16.5.3Street Lighting
Common street furniture elements are street lights, which affect the
apparent width of the roadway in several ways:
By the size and placement of the street lights,
By the height and pattern of light when illuminated, and
Through the sense of enclosure created by overhead street lights.
A street lamp height of 12-15 feet supports a traffic calmed
environment by signaling an area of special concern where pedestrians
are present. Where street trees are present, the lamp height should be
beneath the tree canopy, or between trees.
For the street lamp heights suggested above and desirable illumination
Street lights in a town
levels, a longitudinal spacing of 50-75 feet is appropriate. Lighting
center setting
fixtures should be appropriately shielded to minimize undesirable light
pollution and the color emitted (white light is often preferred in
developed areas) should be consistent with the setting.
In addition to possible traffic calming influences, street lights are an
important feature of the urban design for a district. In many cases,
municipal or district standards apply to the selection and placement of
street light fixtures.
16.5.4Street Trees
Tree trunks lining the roadside create a sense of enclosure and contribute
to a reduced apparent width. The overhead tree canopy further adds to
the perception of a narrowed road since the light/shade patterns on the
pavement created by the trees contribute to a sense of texture on the
pavement. Guidance for the planting of street trees is provided in
Chapter 13.
16.5.5Raised Curbs
Curbs are important in traffic calmed settings because they signal a lower
design speed to motorists. Curbing is not normally paired with clear zones
typical of rural areas and high speed environments. Further, a raised curb
permits a placement of roadside objects (trees and street furniture) close
enough to the travel lanes to have a pronounced traffic calming effect.
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Short segments of streets with no curb within longer segments of curbed
streets can also be a traffic calming measure. In such instances, the edge
of the traveled way is delineated by pavement markings, change in
pavement texture, or paving bands of a contrasting color and texture.
The edge of the traveled way can be further delineated by bollards,
planters or other street furniture. Curbless sections can also serve as
Ðshared streetsÑ which are designed to be fully part of the public realm
and are integrated into the surrounding context. Examples of such shared
streets are plazas in a town center, market places with street vending,
streets regularly used for festivals, and places (e.g., in front of churches
or city halls) of unusual civic interest.
16.5.6Curbside Parking
The sense of enclosure resulting from parked cars, the articulated
appearance of parked cars, the entry/exit vehicular maneuvers, and
the pedestrian traffic generated by occupants of parking/departing
vehicles, all contribute to traffic calming on streets with parking.
Curbside parking of all types should be considered in the context of
bicycle use of the street since parking maneuvers and door openings are
obstacles to bicyclists.
The dimensions for on-street parking, in contrast to those for moving
vehicles, are not intended to change behavior, but rather are intended
to make parking safe and efficient. Although spaces do not need to be
striped, the typical dimensions for on-street parallel spaces are a width
of 8 feet, and a length of 20-22 feet. In many locations, particularly with
short sections of curb face interrupted by driveways or hydrants, the
length of parking spaces can be increased without reducing the number
of spaces. The selected width should also take into consideration
whether bicycle lanes are present and the volume and composition of
traffic on the street.
The parallel parking maneuver can be expedited and made more
convenient to drivers by marking a ÐboxÑ at one or both ends of the
parking space, as illustrated in Exhibit 16-6. If parking is allowed, this
treatment is particularly suited to roadways with higher traffic
volumes. The box striping plan can help minimize the delays caused by
the parking maneuver. With these boxes in place, the entering or
exiting motorist has available the marked dimensions of the space
(typically 22 feet, although smaller spaces are possible with this
treatment) and also the length of both of the attached boxes (a total
of 8-10 feet) to enter and exit the parking space.
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2006 EDITION
Diagonal parking is not commonly used because of limitations in roadway
width, but can be an element of traffic calming in areas with a high
demand for parking and sufficient pavement width. The allocation of
pavement (parking versus travel lanes) and the ÐfrictionÑ of parking
maneuvers contribute to traffic calming.
Exhibit 16-6
Curbside Parking
5 ft
22 ft22 ft22 ft
7-8 ft
Parallel Space with "box"
Parallel Space
Opposing TrafficOpposing Traffic
Improved Visibility
13 ft13 ft
Drive & Maneuver Space
for Exiting Driver
19 ft19 ft
9-10 ft10.4 - 11.5 ft10.4 - 11.5 ft
9-10 ft
WidthCurb DistanceCurb Distance
Width
Head-In Diagonal ParkingBack-In Diagonal Parking
Source: Adapted from Back-In Angle Parking in the Central Business District, John A. Nawn, 2003
ÐBack-inÑ diagonal parking, shown in Exhibit 16-6 has recently been suggested
as another approach to angle parking. Parking dimensions are the same as
head-in diagonal parking. However, the back-in layout permits exiting drivers
to have a clear view of on-coming traffic, bicyclists, and pedestrians in the
street as they exit the space. Visibility leaving the space is superior to head-in
parking, where exiting drivers are likely to have their view of on-coming traffic
obscured by the adjacent vehicle. An additional advantage of back-in parking is
that the open doors of the parked vehicles block passenger access to the
street, and instead channel passengers toward the sidewalk, a safety benefit
for all users and particularly for children. Finally, back-in parking places the
cargo area (trunk, hatchback, truck bed) for almost all vehicles on the curb,
and not in the street adjacent to traffic lanes.
The principal drawbacks of back-in parking, when compared with head-in
parking are the need for a motorist to stop in the travel lane before backing
16-14 Traffic Calming
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into a space and increased potential for vehicle overhang on sidewalks. The
overhang is a significant concern if the sidewalks are narrow. The provision of
wheel stops can help address the overhang issues, although the rear-wheel
overhang dimension varies widely across the motor vehicle fleet. Wheel stops
can also pose a challenge for maintenance operations such as street sweeping
and snow plowing.
16.5.7Spot Narrowing of Pavement
Narrowing a street at mid-block locations, as illustrated in Exhibit 16-7, can
capture much of the benefit of a far more extensive narrowing. Narrowing
the street at mid-block locations serves to reduce the speed of vehicles not
only at the narrowing itself, but also for the adjacent street segments,
where motorists decelerate and return to normal running speed.
Exhibit 16-7
Mid-block Street Narrowing
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January 2006
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16.5.8Medians and Crossing Islands
Traversable medians, typically built of textured or contrasting materials
such as stamped concrete, bricks, pavers, or cobblestones can be effective
traffic calming devices particularly where periodic segments of raised
median are included, as shown in Exhibit 16-8. These medians are flush
with the travel lanes but are notably different, both in appearance and in
feel to the driver. Traversable medians narrow the real and apparent width
of the street, and provide deflection at end points, while still permitting
unlimited driveway access across them. They can serve as left-turn lanes,
and allow for passing of double-parked cars. Further, traversable medians
offer opportunities for emergency vehicles to bypass stopped traffic. At
intersections, the ends of the traversable medians can extend all the way
through the crosswalk, thereby providing some pedestrian refuge.
Pedestrian crossing islands are short divisional islands located at
crosswalks. Pedestrian crossing islands may be located at intersection or
midblock locations. These islands allow pedestrians and bicyclists to cross
only one traffic stream at a time and provide some degree of protection
from the vehicular traffic while waiting for a gap to finish their crossing.
These islands should include raised curbs with a cut-through at the
pavement level for wheelchair users. The cut-through should be graded to
drain quickly and should also have special provisions to assist the visually
impaired in identifying the refuge island. The pedestrian crossing island
should be at least 6 feet wide from the face of the curb to the face of the
curb. The island should not be less than 12 feet long or the width of the
crosswalk, whichever is greater.
Raised mid-block islands should be short in length, typically less than 70-
90 feet. Longer islands are likely to cut off access to too many properties
and do not add to the deflection. Ideally, these short segments of median
are sited to avoid blocking property access, although confining the
occasional driveway to right-in/right-out access may be reasonable. The
minimum island size should be 50 square feet. Larger islands can
sometimes support plantings if adequate soil volumes and irrigation are
provided. See Chapter 3 for additional planting guidance.
All raised islands should also include an approach nose, offset from the
edge of the traffic lane and appropriately treated to provide motorists with
sufficient warning of the island's presence. This can be achieved in various
ways, such as illumination, reflectorization, marking, signage, and/or by
the size of the island.
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Exhibit 16-8
Median Islands
Textured flush
pavement at
left-turn lane
Short
segments
of raised
median
Textured flush
pavement at
mid-block
Textured flush
pavement to
accommodate
driveway
On divided streets, parking can be added along the median. Where the
total street width permits only one lane of parking along the median,
that parking lane can be alternated, as shown in Exhibit 16-9. With
this approach a planted median can give the appearance of a double
row of trees, although only a single row is present at any point along
the street. The designer should refer to Chapter 13 for additional
guidance on tree planting in the medians.
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Exhibit 16-9
Parking on Median Islands
Parallel parking
on alternate
sides of median
Full width
median at
end of
blocks
Parallel parking
on outer curbs
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16.5.9Allocation of Pavement Width and Road Diets
The pavement width of the street can be allocated in a manner that
gives more space to pedestrians, bicycles, and parking, reducing the
width of the motor vehicle traveled way. In some instances, the
elimination of a travel lane on a four-lane roadway and conversion of
another lane to a median with turning pockets can improve conditions
for pedestrian and bicycle users without adversely affecting roadway
capacity since the left-turns are accommodated within the median.
Allocation of pavement width could also provide wider sidewalks if
conditions suggest that additional space could better accommodate the
existing or anticipated pedestrian activity. These types of measures
have recently been referred to as Ðroad dietsÑ when applied to existing
streets.
16.5.9.1
Bicycle Lanes
Adding an on-street bicycle lane, as shown in Exhibit 16-10, reduces
the pavement width for motor vehicles, while at the same time
providing for bicycle travel. The typical dimensions and placement of
bicycle lanes are discussed in Chapter 5.
16.5.9.2
Travel Lane Width
Minimal lane widths can reduce vehicle speeds, reduce pedestrian
crosswalk distances, and maximize the space available for bicycle
lanes and sidewalks.
Where traffic calming is intended, driving lane widths should be 10
feet, a width widely accepted as appropriate for residential and minor
collector streets. A larger lane width (11 feet) is appropriate for outer
(curb) lanes on streets where on-street parking is not present and on
arterials or other roadways that carry large numbers of trucks and
buses.
Lane layouts should also take into consideration space for bicycles, as
described in Chapter 5. Traffic claming measures that reduce the
travel lane width may reduce or eliminate the opportunities for motor
vehicles drivers to overtake bicycles sharing the same lane. Where
such overtaking is impossible, motor vehicle speed is likely to be
determined by bicyclist speed. Thus, the presence of bicyclists
becomes a significant element of traffic calming.
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Exhibit 16-10
Bicycle Lanes
A. Streets without On-Street Parking
5 ft5 ft
B. Streets with On-Street Parking
Parking 8 ft
5 ft5 ft
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16.5.9.3
Auxiliary Lanes
Auxiliary (left turn and right turn) lanes should be used sparingly with traffic
calming. Typically, rear-end collisions between a left-turning and at-speed
following vehicle are less frequent and less severe due to the lower speeds of
traffic in traffic-calmed settings. Further, the occasional blockage of through
traffic by a left-turning vehicle should not be considered a detriment in a
traffic calmed setting. Occasional and irregularly timed variations in traffic
flow are an intended consequence of traffic calming.
When on-street parking is present, as shown in Exhibit 16-11, left-turn lanes
can generally be accommodated (when necessary) within the existing
pavement width on the intersection approach leg by removing parking spaces
on both sides of the street at the intersection. On streets without parking, the
existing pavement width may not be adequate to accommodate a left-turn
lane, and the approach may therefore have to be flared to accommodate the
left turn lanes. Auxiliary lanes (typically left-turn lanes) should typically be 10
feet wide in traffic calmed areas.
Right-turn lanes are inadvisable in most traffic calmed settings. Their
emphasis on vehicular accommodation, the additional crossing distance they
create for pedestrians, and the increased possibility of vehicle conflicts with
pedestrians are all likely to negate the goals for the traffic calmed street.
Traffic Calming 16-21
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Exhibit 16-11
Left-turn Lanes, Traffic Calming Values
storage
Short Taper
20-30 ft
10-11 ft
10 ft typ.
10-11 ft
Curb Lane
End of Parking
A. Within existing pavement width
Short Taper
20-30 ft
10-11 ft
10 ft typ.
10-11 ft
B. Pavement width flared to accommodate left-turn lane
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16.5.10Gateways
Closure of a street (through gates, barricades, pavement removal)
should not be considered as part of a traffic calming program. The
unintended consequences of street closure Î moving traffic problems
to a new location, increasing vehicle miles of travel, contentiousness,
and degrading emergency services Î argue strongly against street
closure as a remedy for neighborhood traffic problems.
However, street-side features that function as gates or portals are an
effective traffic calming device. Gateway features, located close to the
pavement edge, appear to narrow the road and therefore reduce the
operating speed of approaching motorists. Gateways are usually
interpreted as indicative of a special area, requiring increased
attentiveness. Gateways are often associated with dead-end street
systems, and can therefore be a signal to unfamiliar motorists that a
route is not a likely cut-through route. In addition to their traffic
calming function, gateway features can serve as transit waiting areas,
information kiosks and mountings for signs and lighting.
As shown in Exhibit 16-12, it is appropriate for gateway features to be
placed within the street right-of-way. Minimum clearance from the street
is 2-feet from back of curb. When placed near or at an intersection,
gateway designs should be checked to assure that an adequate
intersection sight triangle is preserved as described in Chapter 3.
Exhibit 16-12
Gateways
Traffic Calming 16-23
January 2006
2006 EDITION
16.6Traffic Calming Measures Incorporating Deflection
Deflecting the vehicle from an otherwise straight path is an important
traffic calming action that reduces vehicle speed. The relationship of
sight distance and curvature to operating speed is a basic relationship
for road design at all speeds as described in Chapter 3. For the lowest
design speeds associated with traffic calming (5-15 miles per hour), it
is necessary to extend the ranges of stopping sight distance and
minimum radius, by extrapolating the values adopted for higher
speeds, illustrated in Exhibit 16-13.
Exhibit 16-13
Low-speed Design Parameters
16.6.1Mid-Block Deflection Measures
There are several possible approaches to introducing mid-block
deflection to a vehicle path, as described below:
16.6.1.1
Chicanes and Lane Offsets
The simplest measure for deflecting traffic is the narrowing of one side
of the street by an amount that requires the through traffic to deflect
from its previously straight path, as shown in Exhibit 16-14. A series of
such deflections, typically called chicanes, multiplies in effectiveness as
it extends throughout the entire length of the block.
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Exhibit 16-14
Mid-block Deflection
Shapes
Rectangle
20-40 ft
r=3'
r=5'
Trapezoidal
20-40 ft
5-10 ftCircular
Can shield
on-street parking
22 ft
20 - 40 ft
Drainage Treatment
0.5'-1.0'
Existing Gutter, Open
6 - 10 ft
0'-1.0'
Existing Gutter, Covered
Attached
Rerouted Gutter
to Curb
Mid-block deflection can also be obtained by alternating the parking
(or type of parking) along the block faces as shown in Exhibit 16-15.
Traffic Calming 16-25
January 2006
2006 EDITION
Exhibit 16-15
Lane Offsets from Parking
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16.6.1.2
Short Medians/Crossing Islands
Measures to deflect traffic, such as medians and crossing islands, can
also be centered in the street, as discussed previously in Section
16.5.8. Horizontal deflection can be achieved with crossing islands
where there is on street parking by eliminating parking near the
island. Curb lines can also be adjusted to accommodate the crossing
islands.
16.6.1.3
Mid-Block Traffic Circles
Mid-block traffic circles are a traffic calming measure that assures a
great deal of deflection in the vehicle path, and therefore a significant
reduction in vehicle speeds. Unlike the roundabout intersection, the
mid-block circle has no traffic control function, since there is no cross
street traffic to be controlled. Beyond its traffic calming value, the
highly visible central island of the mid-block circle can serve as a
major demarcation point at a neighborhood boundary, as a setting for
a monument or other display, or to deliberately terminate the view
down the street in order to hide the scene beyond.
16.6.2Intersection Measures
The principle of deflecting traffic in order to reduce its speed can be
applied to intersections as well as non-intersection locations.
Roundabouts provide a central island, which requires deflection for all
movements. Deflection through intersections can also be provided by
offsetting the through traffic lanes or through the use of crossing
islands.
16.6.2.1
Lane Offsets at Intersections
Traffic lanes can be offset at an intersection, reducing speed through
the intersection, as shown previously in Exhibit 16-15. On streets with
parking on one side, the offset results from alternating the side of the
street containing the parking. At ÐTÑ intersections with a left-turn bay
provided, the left-turn lane requires an offset for through traffic in at
least one direction of travel. On streets with diagonal parking on one
side and parallel on the other, the offset at the intersection results
from alternating the sides on which each type of parking is provided.
16.6.2.2
Crossing Islands
Crossing islands, as described in Section 16.5.8, can also be used at
intersection locations.
Traffic Calming 16-27
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2006 EDITION
16.6.2.3
Curb Extensions
Narrowing the street at an intersection, through the use of curb extensions,
is a versatile and widely used traffic calming measure, as shown in
Exhibit 16-16.
Exhibit 16-16
Intersection Curb Extensions
A. Bulbouts on Both Streets
Move crosswalk toward
center of intersection
22' typical for two-way flow
4' minimum
Adjust sidewalk to
meet relocated
crosswalk
B. Bulbouts on One Street
r = 1'
20' - 40'
Move crosswalk toward
center of intersection
22' typical for two-way flow
4' minimum
Adjust sidewalk to
meet relocated
crosswalk
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In addition to slowing traffic due to reduced pavement widths, curb
extensions delineate on-street parking, shield the ends of the parking
lane from moving traffic, and discourage drivers from using an empty
parking lane for overtaking other vehicles. They also prevent illegal
parking at corners, thereby improving sight lines for all users.
Curb extension substantially reduce the pedestrian crossing distance
while increasing the pedestrian space on the intersectionÓs corners.
Curb extensions can also benefit vehicular traffic, by moving the stop
bar on the approach lanes further into the intersection, thereby
reducing the intersection size and signal clearance intervals. The
reduced intersection size can, in some instances, solve sight-distance
deficiencies on the intersection approaches. Curb extensions can
prevent parking close to intersections, and thus improve sight distance
from cross streets. Also, curb extensions frequently reduce the
ÐwastedÑ pavement at intersections (i.e., areas of pavement unusable
by either vehicles or pedestrians near the corners). Fire hydrants are
often located near intersections so that curb extensions result in no
loss of legal parking.
Curb extensions can be used on one or both of the intersecting streets, or
on any combination of approaches. The width of the roadway at the curb
extension is typically no wider than necessary to accommodate the
through lanes, providing 10 to 12 feet per lane plus additional offset of 1
to 2 feet from the edge of the traveled way. Curb extensions should only
be used in conjunction with on-street parking so that they do not pose an
unexpected hazard to bicyclists and motor vehicles.
With curb extensions, the increase in sidewalk area provides space for
street furniture such as fire hydrants, information kiosks, benches and
plantings. The additional sidewalk space is particularly useful where local
regulations require buildings to be located adjacent to the sidewalk,
thereby putting a premium on sidewalk space.
Typically, curb extensions are cost effective, since a single intersection
treatment affects traffic in all directions on both intersecting streets.
Because of their high visibility, curb extensions can be an important
entrance feature for a neighborhood or a district of special interest.
Traffic Calming 16-29
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2006 EDITION
16.6.2.4
Roundabouts and Mini-Traffic Circles
Two characteristic features of roundaboutsÏsplitter islands on
approaches and the central circleÏprovide a significant reduction in
vehicle speeds and corresponding increases in driver attentiveness. The
deflection provided by the splitter islands encourages a decrease in
speed as drivers approach the intersection. Within the roundabout, the
radius of the central island reinforces the low operating speed. At some
roundabouts landscaping or man-made features within the central island
terminate the view on approaching roadways, thereby contributing to
reduction of the operating speed of approaching traffic. Guidelines for
the design of roundabouts are given in Chapter 6 of this Guidebook.
Because of its circular central island, the mini-
traffic circle is frequently confused with
roundabouts. However, the mini-traffic circle
differs from a roundabout in important ways.
Mini-traffic circles are typically smaller than
roundabouts and do not merge traffic into a
stream around a circulating roadway. Unlike the
roundabout, the mini-traffic circle is not a traffic
control device. Rather, at the mini-traffic circle,
right-of-way is assigned by stop control (often
all-way stop control). Mini-traffic circles usually
do not have splitter islands on their approaches,
Roundabouts are intersection control measures
although these are sometimes provided to absorb
that provide speed reduction.
excess pavement width on approaches or to
(Photo Credit: Jan Conklin)
provide pedestrian refuge. For automobiles,
operations at the mini-traffic circle are similar to those at a
roundabout, with vehicles proceeding around in a counterclockwise
direction. Large trucks (single unit (SU) trucks or larger) make right
turns and through movements by entering the circle and proceeding
counterclockwise. However, they make left turns by turning in front of
the mini-traffic circle, after yielding right-of-way.
This pattern of movement can be hazardous where truck and buses
are present on a regular basis. Mini-traffic circles can also pose
significant challenges for emergency vehicles. As a result, mini-traffic
circles are not recommended for most locations. Roundabouts and
mini-roundabouts (designed using the same principles as a
roundabout, but will a small central island) should be considered in lieu
of mini-traffic circles.
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16.6.2.5
Stop Control
Stop control, considered to be a traffic calming measure by many
neighborhood groups, can be an appropriate traffic control decision
under special circumstances. However, stop signs are traffic control
devices that help to assign who has the operational right-of-way
movement through an intersection and should not normally be
considered a traffic calming tool. Warrants supporting the use of
two-way and all-way stop are provided in the MUTCD. Some factors that
may suggest use of all-way stop control include a lack of an obvious
major and minor street, large volumes of turning movements, nearby
pedestrian generators (park, school), and single through lanes in all
directions.
Advocates of neighborhood traffic calming tend to overrate the
effectiveness of stop control, and often request it at inappropriate
locations. Excessive numbers of stops are difficult to enforce, and can
be annoying to even careful motorists. Over the longer run misuse of
stop control contributes to the erosion of motorist respect for traffic
control devices in general, and is likely to decrease safety.
16.7Measures to Alter the Street Profile or Texture
Traffic calming measures involving the profile and surface of the street
include alterations to the profile of the street (humps and elevated
segments of streets) and placing a textured pavement surface in parts
of the street.
16.7.1Speed Humps
Speed humps are intended to let vehicles operating at
intended speeds pass with little discomfort to the driver, no
bouncing of loads in trucks, and little noticeable stress (for
example, bottoming out) of the vehicles. Because driver
discomfort at humps rises rapidly as their design speed is
exceeded, humps are an effective measure for controllig
speeds.
Vehicle crossing a speed hump
Speed humps can be appropriate for minor collectors and local roads.
On higher-classified streets (major collectors or arterials), the target
design speed of 15-20 miles per hour for humps is likely to be
inappropriate and inconsistent with the function of such streets.
Traffic Calming 16-31
January 2006
2006 EDITION
Speed humps may generate noise from vehicles braking and
accelerating. Noise impacts on nearby residents can be mitigated
through careful locating of the speed humps, or by spacing humps
closely to encourage constant speeds.
16.7.1.1
Round-Top Speed Humps
Round-top speed humps are 12-14 feet in length, and rise to a height
of 3-4 inches. A common profile, the parabolic crown, illustrated in
Exhibit 16-17, permits comfortable crossing at design speed, but
makes crossings increasingly uncomfortable as design speed is
exceeded.
Exhibit 16-17
Speed Humps and Speed Tables
Round-top humps may be constructed from a wide variety of
materials: asphalt, textured or colored asphalt, and poured and
stamped concrete. Typically, the space between the end of the hump
and the curb is left open, allowing the gutter drainage to continue
functioning unhampered.
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16.7.1.2
Speed Cushions
The speed cushion is a variety of flat-top hump that does not extend
fully across the street, but rather affects only one side of the vehicle.
Speed cushions provide much of the traffic calming impact of a flat-top
hump, and also allow bicycle lanes and storm drainage to continue
unhindered at the original street grade.
16.7.2Raised Crosswalks (Flat-Top Speed Humps)
Flat-top speed humps, shown in Exhibit 16-17, are frequently used to
complement pedestrian crossings, particularly where curb extensions
are in place. When constructed of a pavement material differing from
the adjacent street, flat-top speed humps are conspicuous to both
drivers and pedestrians, thereby improving the pedestrian crossing
safety. Flat-top humps at crosswalk locations also serve to protect the
pedestrian crossing from intrusion by on-street parking. For flat-top
humps, typical ramp lengths are 6 feet, and the typical length of the
flat top is 10 feet, giving a total length of 22 feet. A simple straight
ramp is typically used.
16.7.3Raised Intersections
The concept of the flat-top hump can be extended to an entire
intersection, raising the entire intersection to sidewalk height or nearly
so. The raised intersection provides benefits to all crosswalks. Raised
intersections employ many of the same design elements as raised
crosswalks; however, the designer needs to pay special consideration to
drainage issues and the demarcation of intersection corners through
pavement changes, markings, or bollards.
16.7.4Textured Pavement
Textured pavement encourages motorists to be aware of an area of
special concern due to the appearance of the texture, vibration, more
noticeable motion of the vehicle and tire noise. Pavement texture
alone, at isolated locations, is not an effective traffic calming measure.
Rather, textured pavement is more appropriate in support of other
traffic calming measures such as mid-block narrowing, intersection
curb extensions, or roundabouts.
Flexible pavement materials (i.e., asphalt) can be colored or stamped
with patterns, and are often the material of choice for speed humps
and crosswalks. Rigid pavement (i.e., concrete and stamped concrete)
is regularly used for flat-top humps, and for crosswalks. Rigid
materials, such as concrete pavers, are frequently used for full-
Traffic Calming 16-33
January 2006
2006 EDITION
intersection designs, raised intersections, crosswalks, and in
connection with mid-block traffic calming measures such as narrowing
and splitter islands. Paver-insets need to be constructed so that their
long-term serviceability is ensured given the freeze-thaw cycles
common in this region.
16.7.5Rumble Strips
The use of rumble strips as a traffic calming measure is inappropriate,
since these are typically used as a warning device at high-hazard
locations, such as isolated, high-volume, rural intersections. Further,
rumble strips are hazardous to bicyclists, and the noise generated by
them is likely to be problematical in neighborhoods. A further reason
to avoid rumble strips as a traffic calming measure is that they do not
compel a reduced speed as do other traffic control measures, and
drivers eventually learn to ignore them.
16.8Traffic Management Measures
Traffic calming measures are intended to reduce operating speeds and
increase driver attentiveness. On the other hand, traffic management
measures are intended to reduce and redirect traffic movements, but
are unlikely to have a significant influence on operating speeds.
Traffic management measures fall into two categories:
(1)Movements physically restricted by street design features, and
(2) Regulatory restrictions, conveyed primarily through signs.
16.8.1Restriction of Vehicle Movements through Street Design
Several design measures are available to restrict specific movements
at an intersection. For example, a segment of median extending across
an intersection limits turning movements, from all approaches, to a
right turn only. Further, a median eliminates the possibility of through
trips on the cross street. This type of cross-street access restriction by
medians could be appropriate where sight distance is inadequate for
safe turning movements at the intersection, or where through traffic
on the cross street is being discouraged. Other techniques such as the
use of channelizing islands for particular movements can be used to
restrict traffic movements at intersections.
On local streets, the diagonal street closure, shown in Exhibit 16-18,
prevents through movement on both of the intersecting streets, but allows
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2006 EDITION
either a right or left turn from all approaches. Diagonal through-movement
closure may be appropriate to discourage cut-through trips in neighborhood
districts with a dense, well-connected network of streets. Diagonal street
closures should also maintain connectivity for bicycle travel.
Exhibit 16-18
Diagonal Street Closure
Source: Traffic Calming State of the Practice, ITE, 1999
Completely blockading (i.e., completely closing) a street should not be
considered as a traffic management measure. Street closures should
be considered only in instances where such closure is vital for a public
purpose (for example, major park or public institution) and then only
when an ample, well-connected network remains. Restriction of vehicle
movements at town lines is not permitted without the consent of the
adjacent community.
16.8.2Regulatory Measures to Restrict Vehicle Movements
Turn restrictions, on both right turns and left turns, have long been
used at intersections to improve pedestrian or traffic flow, and such
measures can be used as traffic management actions. Restrictions on
turning movements (Ðno left turnÑ or Ðno right turnÑ), are commonly
used to expedite traffic flow. Turning movement restrictions can be
more efficiently policed than speed or stop control violations. The
Traffic Calming 16-35
January 2006
2006 EDITION
drawback of traffic management measures that rely on regulation is
less for turn restrictions than most other types of regulatory action.
The all-way turn restriction, with neither right nor left turns permitted
from any approach, is sometimes used at downtown intersections,
where large volumes of pedestrians are present on all crosswalks.
When used as a traffic management measure, an all-way turn
restriction has the further impact of redirecting traffic away from areas
of special concern, and channeling it toward intended routes.
Turn restrictions have value in traffic management when used to
discourage the use of inappropriate routes. Turn restrictions that apply
only during the peak hour, intended to prevent peak hour commuter cut-
through traffic in neighborhoods, can also be effective.
16.9Administering a Traffic Calming Program
Requests for traffic calming often come from neighborhood groups. Traffic
calming programs should be planned in a design dialogue, conducted on-
scene in the subject area, involving residents, property owners, and
business operators in intensive hands-on work sessions. A successful
program of traffic calming measures requires skilled gathering and
interpretation of input and applying a large measure of judgment in
developing the measures.
Formal traffic survey techniques are often ineffective in forming traffic
calming programs. Requiring petitions from residents, business or
property owners as a prerequisite for installing traffic calming
measures is inadvisable. Petitions voluntarily submitted by stakeholder
groups can be one of a number of useable inputs to the design of any
traffic calming program and can be a measure of the communityÓs
perceived need for improvement and their willingness to fund it.
However, such petitions should not be required. They are expensive,
both in terms of funding and managerial attention required by the
traffic calming program. Further, the petition process is often divisive,
with the outcome likely to vary greatly depending on the wording of
the petition and the outlook of the person collecting signatures.
Attempting to plan a program of traffic calming based on numerical
scores or quotas is not advisable. Numerical scoring schemes will focus
on those traffic characteristics that are easily measured (specifically,
speeds, traffic volumes and collisions), thereby furnishing an
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incomplete and often misleading analysis of the need for traffic
calming. Factors that are important to the community may not register
in this type of numerical analysis. These important factors include the
character of residential neighborhoods, historical value, type and value
of retail business, neighborhood institutions and aesthetic character.
It is important to determine and discuss the benefits and impacts of
various traffic calming measures with community members so that a well-
founded traffic calming program can be prioritized and implemented. In
some cases, gathering numerical data is expensive and time consuming,
and can drain the traffic calming program of funds needed for producing
the measures themselves. However, before-and-after studies and the use
of low-cost, temporary measures (such as carefully arranged construction
barrels) can be used to identify the effectiveness of existing or proposed
traffic calming measures to build consensus around a traffic calming plan.
16.10Traffic Calming and Tort Liability
Traffic calming measures are simply low-speed street design elements,
following accepted design guidelines or reasonable extrapolations of them,
as discussed earlier in this Chapter. Therefore, traffic calming measures
can be defended against tort liability in the same manner as road design
in general. The design should document the design decisions and their
rationale by following the recommendations listed below:
Provide a reasonable, written rationale for the traffic calming measure
or program of measures. Typical rationales include neighborhood
safety, historical preservation, retail viability, and proximity of
important institutions (schools, for example).
Observe good practice in designing the traffic calming measures.
Monitor the safety performance of installed measures. Ongoing crash
record systems are suitable for this monitoring.
Address observed safety problems in a cost-effective manner, making
prudent use of available funding. The Ðprudent useÑ test has long been
a defense against tort liability at known or suspected safety problem
locations, and can be extended to modifications needed at traffic
calming measures.
Traffic Calming 16-37
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16.11For Further Information
Traffic Calming Guidelines, Devon County Council, Exeter, England,
1991.
Traffic Calming Î State of the Practice, Institute of Transportation
Engineers, Washington, D.C., August, 1999.
Traffic Calming, Planning Advisory Service Report Number 456,
American Planning Association, Chicago, IL, 1995.
Guidelines for the Design and Application of Speed Humps Î A
Recommended Practice, Institute of Transportation Engineers Speed
Humps Task Force, Washington, D.C., 1997.
Traffi c Calming Guidelines, FHWA, 2002
(
www.fhwa.dot.gov/environment/tcalm)
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