考虑信号优先级的快速公交系统能力研究

IF 1.1 Q3 TRANSPORTATION SCIENCE & TECHNOLOGY Transport and Telecommunication Journal Pub Date : 2022-02-01 DOI:10.2478/ttj-2022-0008
Robel Desta, J. Tóth
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引用次数: 1

摘要

公共交通性能差的主要原因之一是交叉口的延误。在提高公共交通性能的高效和可持续解决方案中,快速公交(BRT)由集成专用公交车道和智能运营服务的基础设施组成,并采用不同的ITS技术,如交通信号优先(TSP)。本研究研究在BRT走廊交叉口上运行的公交车在专用车道上具有信号优先权的能力。研究的交叉口位于亚的斯亚贝巴BRT-B2线中心附近,坡度相对平缓,车流量和行人量较大。为选择的交叉点创建微观模型,以及可能的校准和验证;此外,还执行了统计比较,以评估不同的场景,目的是显示部署的好处。为了评估BRT公交车的性能及其对一般交通的总体影响,对有和没有TSP的情况进行了评估。使用PTV VISSIM和VisVAP附加仿真程序来检查TSP备选方案。引入TSP后,优先方向上的出行时间最多减少4.78%,平均出行速度最多增加7.25%,排队长度最多减少6%,而在非优先方向上,排队长度最多增加2.5%。此外,总体平均乘客延误时间平均减少了15%。改善交通性能最简单的方法之一是信号优先策略,它对一般交通的影响很小。
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Competence of Bus Rapid Transit Systems Coupled with Transit Signal Priority at Signalized Junctions
Abstract One of the primary causes of poor public transport performance is delays at intersections. Among the efficient and sustainable solutions to boost mass transportation performance, Bus Rapid Transit (BRT) consists of infrastructures integrating dedicated bus lanes and smart operational service with different ITS technologies like Transit Signal Priority (TSP). This research studies the competence of buses operating on junctions of the BRT corridor where they have Signal Priority on the dedicated lane. The studied intersection is located around the center of the Addis Ababa BRT-B2 line, which is relatively gentle grade and characterized by the high traffic and pedestrian volume. Microscopic models were created for the chosen intersection, along with possible calibration and validation; moreover, a statistical comparison was performed to evaluate different scenarios with the goal of displaying the deployment benefits. To assess the performance of BRT buses and their overall influence on general traffic, scenarios with and without TSP were evaluated. PTV VISSIM and the VisVAP add-on simulation program were used to examine TSP alternatives. Incorporating TSP reduced the travel time by up to 4.78% in the priority direction, the average travel speed increased by 7.25%, and the queue length also reduced by a maximum of 6%, whereas in the non-priority direction, the queue length increased by a maximum of 2.5%. Moreover, the overall average passenger delay has reduced by an average amount of 15%. One of the simplest ways to improve transit performance could be signal priority strategies, which has a minor influence on the general traffic.
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来源期刊
Transport and Telecommunication Journal
Transport and Telecommunication Journal TRANSPORTATION SCIENCE & TECHNOLOGY-
CiteScore
3.00
自引率
0.00%
发文量
21
审稿时长
35 weeks
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