基于停留时间分析的快速公交系统时空容量估算

Q1 Chemical Engineering
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引用次数: 0

摘要

对城市交通系统,特别是快速公交系统(BRTS)进行性能研究,必须报告其运行情况和可靠性。对快速公交系统的研究包括许多方面,其中包括直接影响系统实际运行和为乘客提供服务的运力。胡巴利-达尔瓦德快速公交系统(Hubballi-Dharwad Bus Rapid Transit System,HDBRTS)自 2018 年起开始运行。有必要进行性能研究,以评估 HDBRTS 的性能,从而帮助其升级和改进。目前的研究在创新和启发的基础上使用了实验技术,通过估算走廊在不同空间和时间波动下的运行能力,对 HDBRTS 的性能进行评论。所选的 HDBRTS 线路包括隔离(专用交通环境)和非隔离(混合交通环境)路段。目前的研究主要通过视频图形调查,获取 HDBRTS 各巴士站已识别的空间和时间趋势的必要数据。收集到的基本数据包括每个车站的停留时间(DT)数据,即一辆巴士在一个车站为乘客服务的总时间。DT 与特定巴士站的容量成反比,而容量则与故障率(FR)相关。利用 DT 分析了线路上所有公交车站的故障率值,然后计算了不同时空模式下的容量值。研究结果表明,在已确定的线路中,DT 值临界的最繁忙车站的故障率值在 1%-2%之间,这与之前的研究相矛盾。车站容量在空间和时间上的变化用图表表示,隔离路段的最小容量为 36 辆公共汽车/小时,非隔离路段为 31 辆公共汽车/小时。最后,利用 K-Means 聚类算法确定了所选研究走廊的服务水平(LOS),并利用轮廓系数技术进行了验证。得到的轮廓系数值在 0.52 至 0.74 之间,表明结构合理。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Spatiotemporal capacity estimation of bus rapid transit system based on dwell time analysis
The performance study of an urban transport system, particularly a Bus Rapid Transit System (BRTS), must report on its operations and reliability. Such study of BRTS comprises numerous facets, including capacity, which directly influences how the system practically operates and serves the commuters. Hubballi-Dharwad Bus Rapid Transit System (HDBRTS) has been operational since 2018. A performance study is necessary to evaluate the performance of HDBRTS, which aids in its upgradation and improvement. The current research uses the experimental technique through an innovative and inspired basis to comment on the HDBRTS's performance by estimating the corridor's operational capacity at different spatial and temporal fluctuations. The selected route of the HDBRTS comprises combined segregated (exclusive traffic environment) and unsegregated (mixed traffic environment) stretches. The current study mainly conducted a video graphics-based survey to acquire the necessary data on identified spatial and temporal trends at various HDBRTS bus stations. The essential data gathered consists of Dwell Time (DT)-based data at each station, summarising the total time a bus takes to serve passengers at a station. DT is inversely proportional to the capacity of the particular bus station, which is related to the Failure Rate (FR). FR values of all the bus stations of the route were analyzed using DT, and then capacity values were calculated at different spatiotemporal patterns. Study results show that the busiest stations of the identified routes with critical DT values have FR values in the range of 1–2%, contradicting previous studies. The variations in the capacity of the stations, both spatially and temporally, were graphically represented with the minimum capacity of the segregated stretch as 36 buses/hr and the unsegregated stretch as 31 buses/hr. Finally, the Level Of Service (LOS) of the chosen study corridor was developed using the K-Means clustering algorithm and validated using the Silhouette Coefficient technique. The silhouette coefficient values obtained range from 0.52 to 0.74, indicating a reasonable structure.
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来源期刊
Journal of King Saud University, Engineering Sciences
Journal of King Saud University, Engineering Sciences Chemical Engineering-Fluid Flow and Transfer Processes
CiteScore
12.10
自引率
0.00%
发文量
87
审稿时长
63 days
期刊介绍: Journal of King Saud University - Engineering Sciences (JKSUES) is a peer-reviewed journal published quarterly. It is hosted and published by Elsevier B.V. on behalf of King Saud University. JKSUES is devoted to a wide range of sub-fields in the Engineering Sciences and JKSUES welcome articles of interdisciplinary nature.
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