Design speed is the rate of travel for which the physical characteristics of a roadway are designed. The design speed for a given roadway plays a large role in determining the scale and design of roadway characteristics. For example, if a design speed of 35 mph is chosen for a given roadway, all aspects of its design, such as roadway curvature, lane width and intersection elements will safely accommodate vehicles traveling at 35 mph. Roadside design elements vary greatly with design speed, as fixed objects along the streets present a greater substantive safety risk at higher speeds.
Before discussing design speed, it may be useful to introduce and explain a few related topics:
Designers and engineers often choose a design speed that is higher than the posted/target speed, which encourages vehicles to travel at speeds higher than the target speed, especially along lower speed corridors. A facility's design speed and target speed should be equal, to keep vehicular speeds at or below the desired target speed. All elements of the streetscape should be designed to support the target speed for the corridor.
In a multi-modal environment with significant pedestrian presence, it is essential to provide adequate vehicular stopping sight distance and intersection sight distance. It is good practice to use a relatively low design speed (e.g. 30 mph) but provide the equivalent of 40 mph of sight distance.
Functional classification is traditionally used to determine the target speed for a given thoroughfare. Although roadway planners and designers should consider functional class when selecting the facility's posted speed, the characteristics of each individual place should be the primary consideration used in choosing a target speed. A keen awareness of an area's unique characteristics will prevent the misapplication of broad standards that may be inappropriate for the place.
Design Speed for Mixed-Use Districts
Characteristics that influence the choice of design speed in mixed use districts are:
Select the lowest practical target speed. Doing so creates the safest environment for pedestrians; provides easier access to/from abutting land uses; and eases transition between modes of travel. Mixed-use place types are often popular bicycling places due to the lower speeds and transit provisions (transit users often use bicycles to negotiate longer transfers and/or to get from home to the transit stop). For great streets, it is imperative that the choice of design speed reflect the vision for the desired environment. Ideally, a mixed-use district would have a target speed of 25 mph, with a maximum of 30 mph.
Once the target speed is set (assuming that the aforementioned recommendation of equating design speed and target speed is adhered to), it is critically important to design and develop all of the design elements of the thoroughfare, e.g. the curvature of the road or the width of the lanes, according to the posted speed. The target speed limit will become nothing more than a number on a sign if the controlling design features of the thoroughfare allow and promote travel at higher speeds. Horizontal curvature, lane width, horizontal clearance, median type and width, and many other features must be chosen to be consistent with the posted speed limit.
As speed increases, so does the safety risk for pedestrians. Studies on this subject have correlated higher speeds with higher fatality rates for pedestrians when struck by vehicles. For place types such as these that have higher pedestrian activity levels, slower speeds go a long way to increase their safety along the street.
If lower speeds are used in these place types, it is easier for drivers to perceive conflicts on the road ahead and react accordingly. The lower the speed, the less time and distance required to stop or slow down to avoid a potential conflict.
Conflicts on the street are numerous in these place types, and they can be caused by vehicles entering or exiting the street from adjacent access points; by pedestrians unexpectedly entering the traveled way; by vehicles stopping to park or pulling out of parking stalls; buses pulling over at a stop or pulling out from a stop; or by other vehicles unexpectedly changing lanes in congested conditions. Again, lower speeds allow drivers to more safely navigate the myriad of conflicts that may present themselves at any given moment along thoroughfares in these place types.
There is often a misperception that slow speeds result in slower travel times along a given thoroughfare. However, travel time on a given roadway is impacted directly by intersections, particularly the signalized intersections, along the thoroughfare. High posted speed limits will do nothing to improve roadway travel time if there is significant delay experienced at the intersections. In fact, slower speeds along a thoroughfare can contribute to improved overall travel times by allowing more time for better progression and coordination between signals.
For vehicles attempting to gain access from adjacent land uses and crossroads onto the respective thoroughfare (or vice versa), identifying an opening in the traffic stream to safely enter, exit, or cross (commonly referred to as gap selection) is of paramount importance. Drivers must be able to accurately assess whether an opening or gap is acceptable in order to safely navigate to and from the thoroughfare. As speed increases, the number of acceptable gaps decreases and it becomes increasingly more difficult for drivers to identify safe gaps. Selecting the lowest practical design speed for these place types will maximize the ability of drivers to effectively assess gap acceptability, and as a result more safely enter and exit the traffic stream.
Design for the target speed. Once the target speed is set (and consequently the design speed and posted speed), controlling roadway elements must be carefully designed to support travel at the desired speed. The target speed limit will become meaningless if lane widths, horizontal clearance, median type and width, and other features are inconsistent with the posted speed limit. ITE's Context Sensitive Solutions in Designing Major Urban Thoroughfares for Walkable Communities identifies the following design elements that should be considered when lower speeds are desired:
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