Designing to Move People
Transit streets are designed to move people, and should be evaluated in part by their ability to do so. Whether in dense urban cores, on conventional arterials, or along neighborhood spines, transit is the most spatially efficient mode.
Traditional volume measures fail to account for the entirety of functions taking place on urban streets, as well as the social, cultural, and economic activities served by transit, walking, and bicycling. Shifting trips to more efficient travel modes is essential to upgrading the performance of limited street space.
Using person throughput as a primary measure relates the design of a transit street to broader mode shift goals.
While street performance is conventionally measured based on vehicle traffic throughput and speed, measuring the number of people moved on a street—its person throughput and capacity—presents a more complete picture of how a city’s residents and visitors get around. Whether making daily commutes or discretionary trips, city residents will choose the mode that is reliable, convenient, and comfortable.
Transit has the highest capacity for moving people in a constrained space. Where a single travel lane of private vehicle traffic on an urban street might move 600 to 1,600 people per hour (assuming one to two passengers per vehicle and 600 to 800 vehicles per hour), a dedicated bus lane can carry up to 8,000 passengers per hour. A transitway lane can serve up to 25,000 people per hour per travel direction. Read More+
References
References for Designing to Move People: 5 found.
- Ryus, Paul (PI), Alan Danaher, Mark Walker, Foster Nichols, William Carter, Elizabeth Ellis, and Anthony Bruzzone. "Ch. 6: Bus Transit Capacity." Transit Capacity and Quality of Service Manual, Third Edition, TCRP Report 165, Transportation Research Board, Washington.
- Litman, Todd. "A New Transit Safety Narrative." Journal of Public Transportation 17(4), National Center for Transit Research, Tampa.
- Dan Zhou, Cheng Xu, Dian-Hai Wang, and Sheng Jin. "Estimating Capacity of Bicycle Path on Urban Roads in Hangzhou, China." Zhejiang University, Submitted to the 94th Annual Meeting of the Transportation Research Board, Washington.
- Regional Transportation District. "Streetcar and Light Rail Streetcar and Light Rail Characteristics." RTD FasTracks, Denver.
- Oak Ridge National Laboratory. "Chapter 8: Household Vehicles and Characteristics." Transportation Energy Data Book, 34th Edition, US Department of Energy, Washington.