Passenger flow bottleneck decongestion in subway stations: a simulation study

SIMULATION Pub Date : 2024-04-05 DOI:10.1177/00375497241240003

Jingxuan Peng, Zhonghua Wei, Jiaye Li, Xiangfei Guo, Shaofan Wang

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Abstract

The impact of large passenger flow during peak hours causes serious congestion in subway stations, and passenger flow bottlenecks appear in many places, which affects travel efficiency and safety. How to eliminate the bottlenecks is an urgent problem to be solved. In this paper, we first analyze the causes and regions of bottlenecks, and we propose three decongestion solutions: (a) moving the security check machines from the station hall to the entrance channel; (b) adding isolation belts in front of the area of escalators; and (c) separating opposite passengers flow by using isolation belts. We conduct a case study on Guomao Station, Beijing, China to verify the effectiveness of the solutions. Specifically, we establish a microscopic model to simulate the passenger flow in a subway station, and the simulation results show that decongestion solutions can reduce the queueing length of security bottleneck by more than 30%, while decreasing the passenger density in non-paying areas of the station hall by more than 50%. The decongestion solutions proposed in this paper can eliminate the bottlenecks in subway stations effectively and practicably.

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地铁站的客流瓶颈疏导：模拟研究

受高峰时段大客流影响，地铁站内拥堵严重，多处出现客流瓶颈，影响出行效率和安全。如何消除瓶颈是亟待解决的问题。本文首先分析了造成瓶颈的原因和区域，并提出了三种疏解方案：（a）将安检机从站厅移至进站通道；（b）在自动扶梯区域前增设隔离带；（c）利用隔离带分隔对向客流。我们在中国北京国贸站进行了案例研究，以验证解决方案的有效性。具体而言，我们建立了一个微观模型来模拟地铁站内的客流情况，模拟结果表明，缓解拥堵的解决方案可将安全瓶颈处的排队长度减少 30% 以上，同时将站厅非付费区的客流密度降低 50% 以上。本文提出的解拥堵方案可以有效、实用地消除地铁站的瓶颈问题。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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SIMULATION

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