Abstract
Transit priority is a useful way of improving transit operations in urban networks. However, the through and left-turn buses are rarely prioritized simultaneously at isolated intersections in the existing studies. This paper presents a variable bus approach lane design with a bus guidance and priority control model, which can reduce the delay of both the through and left-turn buses. The variable bus approach lanes can be dynamically used for the through and left-turn buses during the various periods of a signal cycle by the integrated design of geometric layouts and signal timing. A detailed bus guidance and priority control optimization model is formulated to guide the buses entering the appropriate bus approach lanes, and it provides optimal signal priorities for buses. The effectiveness of the proposed method is validated by a case study and numerical experiments. The results show that, on average, the total passenger delay can be reduced by 5% for every 30 veh/h and 40 veh/h increase in the volume of through buses and left-turn buses, respectively. Moreover, a comparison between the proposed method and the conventional transit priority method reveals that significant improvements can be made in reducing delays using the proposed method even at intersections with high degree of the saturation.
Highlights
With the increasing congestion on urban roads and the scarcity of the available land for road construction, more and more cities are seriously considering changing the mode of travel
The integrated design of bus lanes and bus priority signal settings for isolated intersections have been developed [21, 32], which can balance the performance of buses and cars and achieve higher intersection reserve capacity
The effectiveness of the variable bus approach lane (VBAL) design and the bus guidance and priority control model was evaluated by a realworld intersection, namely, the intersection of the Qixin and Huqingping roads located in Shanghai, China
Summary
With the increasing congestion on urban roads and the scarcity of the available land for road construction, more and more cities are seriously considering changing the mode of travel. A novel method has been proposed [21] that provides priority to buses at signalized intersections using one approach lane, in which pre-signals are used to stop cars on the opposing travel lane. The integrated design of bus lanes and bus priority signal settings for isolated intersections have been developed [21, 32], which can balance the performance of buses and cars and achieve higher intersection reserve capacity. The existing design and control methods on the exclusive bus lanes can effectively improve the level of public transit service, there are two major shortcomings.
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