不同疏散动机下狭窄过道区域单列人员运动特性研究

doi:10.16097/j.cnki.1009-6744.2025.03.020

交通运输系统工程与信息 ›› 2025, Vol. 25 ›› Issue (3): 224-231.DOI: 10.16097/j.cnki.1009-6744.2025.03.020

不同疏散动机下狭窄过道区域单列人员运动特性研究

黄榕^1a，谢紫萱^1b，王天桐^1b，许慧嘉^1b，陈洋²，赵轩^*1a

1. 长安大学，a.汽车学院，b.长安都柏林国际交通学院，西安710064；2.香港大学，土木工程系，香港999077

收稿日期:2025-02-03 修回日期:2025-03-20 接受日期:2025-03-28 出版日期:2025-06-25 发布日期:2025-06-21
作者简介:黄榕(1995—)，男，广东云浮人，讲师，博士。
基金资助:
国家资助博士后研究人员计划(GZC20241449)；中央高校基础研究培育项目(300102224102)。

Single-file Movement Characteristics of the Crowd in the Narrow Aisle Area Under Different Motivation Levels

HUANG Rong^1a, XIE Zixuan^1b, WANG Tiantong^1b, XU Huijia^1b, CHEN Yang², ZHAO Xuan^*1a

1a. School of Automobile, 1b. Chang'an Dublin International College of Transportation, Chang'an University, Xi'an 710064, China; 2. Department of Civil Engineering, The University of Hong Kong, Hong Kong 999077, China

Received:2025-02-03 Revised:2025-03-20 Accepted:2025-03-28 Online:2025-06-25 Published:2025-06-21
Supported by:
The Postdoctoral Fellowship Program of CPSF(GZC20241449)；The Fundamental Research Funds for the Central Universities, CHD (300102224102)。

摘要/Abstract

摘要： 狭窄过道区域是客车等交通场景突发事故下人员疏散的关键瓶颈，然而，不同疏散动机下该场景单列人员运动行为特性尚不明晰，且鲜见相关研究。本文设计并开展低和高疏散动机下狭窄过道区域单列人员疏散运动可控实验，获取运动轨迹、瞬时速度、疏散时间等宏微观行为特性参数，构建速度-密度以及前向距离-速度关系图，系统量化分析疏散动机对微观运动行为和宏观疏散效率的影响并探析潜在作用机理。实验结果表明：狭窄过道区域单列人员疏散运动呈自由、拥塞和恢复三阶段特征；高疏散动机对个体运动速度具有促进作用，但对疏散效率具有双重影响，其临界人员密度为1.05m^-1，当密度大于1.65m^-1时，作用变得不明显；前向距离-速度关系呈强受限、弱受限和自由三阶段特征，高疏散动机条件下强受限与弱受限阶段的临界前向距离显著更小，且强受限阶段人员运动速度对前向距离的变化更敏感。本文研究成果有助于厘清不同疏散动机下人员疏散行为特性差异，为相关法规和疏散管控策略制定和设施安全设计提供参考。

关键词: 交通工程, 疏散动机, 疏散实验, 狭窄过道, 单列人员, 运动特性

Abstract: The narrow aisle area is a critical bottleneck for occupant evacuation from transportation scenarios such as buses in case of emergencies. However, in such a scenario, the single-file movement characteristics of the crowd under different motivation levels are still unclear yet, with limited research available in literature. To address this gap, well-controlled single-file pedestrian evacuation movement experiments in the narrow aisle area under low and high levels of motivation are designed and conducted. Macroscopic and microscopic metrics such as movement trajectories, instantaneous velocities and evacuation times are collected, and the velocity-density and headway-velocity relationships are constructed. Then, systematic and quantitative analyses are performed to explore the effect of the motivation level on the microscopic movement behaviour and the macroscopic evacuation efficiency, as well as the underlying mechanisms. The experimental results show that the single-file pedestrian evacuation movement conforms to a three-stage pattern, i.e., free, congested and recovery stages. Higher level of motivation increases the individual movement velocity, but has a two-sided effect on the evacuation efficiency with a critical density of 1.05 m^-1, and its effect vanishes when the density exceeds 1.65 m^-1. Three regimes, i.e., strongly constrained, weakly constrained and free regimes, are distinguished in the headway-velocity relation. Moreover, it is found that under high motivation, a lower headway threshold exists between the strongly and weakly constrained regimes, and the movement velocity becomes more sensitive to the change of headway in the strongly constrained regime. These findings are helpful to enhance the understanding of the crowd evacuation movement characteristics under different degrees of motivation, and provide valuable references for the development of related regulations and evacuation management strategies, and safety design of relevant facilities.

Key words: traffic engineering, evacuation motivation, evacuation experiment, narrow aisle, single-file pedestrian, movement characteristic

中图分类号:

U491

黄榕, 谢紫萱, 王天桐, 许慧嘉, 陈洋, 赵轩. 不同疏散动机下狭窄过道区域单列人员运动特性研究[J]. 交通运输系统工程与信息, 2025, 25(3): 224-231.

HUANG Rong, XIE Zixuan, WANG Tiantong, XU Huijia, CHEN Yang, ZHAO Xuan. Single-file Movement Characteristics of the Crowd in the Narrow Aisle Area Under Different Motivation Levels[J]. Journal of Transportation Systems Engineering and Information Technology, 2025, 25(3): 224-231.

导出引用管理器 EndNote|Ris|BibTeX

链接本文: http://www.tseit.org.cn/CN/10.16097/j.cnki.1009-6744.2025.03.020

http://www.tseit.org.cn/CN/Y2025/V25/I3/224

参考文献

[1]HUANG R, ZHAO X, YUAN Y F, et al. Experimental study on evacuation behaviour of passengers in a high deck coach: A Chinese case study [J]. Physica A: Statistical Mechanics and its Applications, 2021, 579 (126120): 1-20.

[2]房斯明,封室丞,刘正江,等.船舶倾斜对不同行人流疏散效率影响的数值分析[J].交通运输系统工程与信息, 2021, 21(1): 201-206. [FANG S M, FENG S C, LIU Z J, et al. Numerical analysis of influence of ship listing on evacuation efficiency of different pedestrian flows[J]. Journal of Transportation Systems Engineering and Information Technology, 2021, 21(1): 201-206.]

[3]HAGHANI M, SARVI M, SHAHHOSEINI Z. Evacuation behaviour of crowds under high and low levels of urgency: Experiments of reaction time, exit choice and exit-choice adaptation[J]. Safety Science, 2020, 126 (104679): 1-20.

[4]刘秋梅,武鑫森,岳昊.步行设施内疏散行人拥挤踩踏仿真研究[J]. 交通运输系统工程与信息,2020,20(3): 190-197. [LIU Q M, WU X S, YUE H. Simulation of crowding and stampede on evacuation pedestrians in pedestrian facilities[J]. Journal of Transportation Systems Engineering and Information Technology, 2020, 20(3): 190-197.]

[5]ZHANG P, YANG L Z, LO S M, et al. Experimental study on evacuation behavior with guidance under high and low urgency conditions[J]. Safety Science, 2022, 154 (105865): 1-12.

[6] LI J H, ZHENG X P. Experimental investigation of the stepping dynamics of upstairs walking under time pressure[J]. Physica A: Statistical Mechanics and its Applications, 2023, 622(128829): 1-21.

[7]WU W H, YI W F, WANG X L, et al. Experimental study on the decision-making and motion behavior of subgroups when facing a static obstacle during movement [J]. Expert Systems with Applications, 2024, 242 (122761): 1-12.

[8]PASTOR J M, GARCIMARTÍN A, GAGO P A, et al. Experimental proof of faster-is-slower in systems of frictional particles flowing through constrictions[J]. Physical Review E, 2015, 92(6): 062817-062822.

[9]黄申石.高速列车座椅过道区域内的人员运动特征与疏散行为研究[D]. 合肥: 中国科学技术大学,2019. [HUANG S S. Study of pedestrian movement characteristics and evacuation behaviors in seat aisle area of high-speed train[D]. Hefei: University of Science and Technology of China, 2019]

[10] 薛书琦,刘禹含,陈清化.幼儿群体单向流运动行为特性分析[J]. 交通运输系统工程与信息, 2021, 22(1): 209-217. [XUE S Q, LIU Y H, CHEN Q H. Analysis of children behavior in unidirectional collective movement [J]. Journal of Transportation Systems Engineering and Information Technology, 2021, 22(1): 209-217.]

[11] JELIĆ A, APPERT-ROLLAND C, LEMERCIER S, et al. Properties of pedestrians walking in line: Fundamental diagrams[J]. Physical Review E, 2012, 85(3): 036111-036119.

[12] WEIDMANN U. Transporttechnik der fussgänger[R]. Switzerland: ETH Zürich, 1993.

[13] CHATTARAJ U, SEYFRIED A, CHAKROBORTY P. Comparison of pedestrian fundamental diagram across cultures[J]. Advances in Complex Systems, 2009, 12(3): 393-405.

[14] CAO S C, ZHANG J, SALDEN D, et al. Pedestrian dynamics in single-file movement of crowd with different age compositions[J]. Physical Review E, 2016, 94 (012312): 1-10. [15] CAO S C, SEYFRIED A, ZHANG J, et al. Fundamental diagrams for multidirectional pedestrian flows[J]. Journal of Statistical Mechanics: Theory and Experiment, 2017, 2017(3): 033404-033422.

不同疏散动机下狭窄过道区域单列人员运动特性研究

Single-file Movement Characteristics of the Crowd in the Narrow Aisle Area Under Different Motivation Levels

PDF

可视化

摘要/Abstract

引用本文

使用本文

参考文献

相关文章 15

编辑推荐

Metrics

[1]	覃文文, 彭栋梁, 戢晓峰, 徐迎豪, 李冰, 李武, 曾浩. 山区双车道公路借道超车轨迹预测模型[J]. 交通运输系统工程与信息, 2025, 25(3): 96-106.
[2]	龙科军, 寇诗雨, 邢璐, 高志波, 唐幼仪, 费怡. 考虑货车影响的匝道合流区车辆微观换道行为建模[J]. 交通运输系统工程与信息, 2025, 25(3): 117-131.
[3]	程国柱, 陈永胜, 孟凤威, 徐亮. 客货混行异质交通流下高速公路专用道车流管理方法[J]. 交通运输系统工程与信息, 2025, 25(3): 178-189.
[4]	时玉琦, 杨晓光, 马成元. 随机需求下机非车道分配与复用优化研究[J]. 交通运输系统工程与信息, 2025, 25(3): 204-214.
[5]	陈永恒, 刘卓剑. 相邻信号影响下的无信号路段驾驶员礼让行人分析[J]. 交通运输系统工程与信息, 2025, 25(3): 215-223.
[6]	尚婷, 郭明洋, 唐伯明, 徐钰婷. 基于动态贝叶斯网络的地下道路行车风险评估[J]. 交通运输系统工程与信息, 2025, 25(3): 232-245.
[7]	潘义勇, 朱梦. 不同光照条件下交通事故严重程度影响因素的可转移性分析[J]. 交通运输系统工程与信息, 2025, 25(3): 346-357.
[8]	胡立伟, 杨灿, 周泽禹, 潘江雄, 陈家乐, 龚麒, 马思月. 高速公路出口衔接城市路段交通风险时空动态识别研究[J]. 交通运输系统工程与信息, 2025, 25(3): 358-371.
[9]	张河山, 曾长坤, 王海洋, 田丰铭, 郑展骥, 张羽. 高速公路夜间养护作业区事故风险辨识及影响机理研究[J]. 交通运输系统工程与信息, 2025, 25(2): 157-168.
[10]	邓院昌, 蒋昀轩, 陶胜芹. 基于可解释集成学习的异常驾驶行为风险识别方法[J]. 交通运输系统工程与信息, 2025, 25(2): 180-189.
[11]	巩喆, 杨轸, 郑瑞平, 袁方. 旁车切入下驾驶人短时响应行为异质性建模与分析[J]. 交通运输系统工程与信息, 2025, 25(2): 190-200.
[12]	王建军, 武京, 李景涛, 周英杰. 非公交车辆停靠对主辅式站台延误的影响分析[J]. 交通运输系统工程与信息, 2025, 25(2): 241-252.
[13]	宋现敏, 刘博, 李海涛, 湛天舒, 李世豪, 张云翔. 考虑综合效益的周期型停车预约分配模型[J]. 交通运输系统工程与信息, 2025, 25(1): 24-35.
[14]	曹丹妮, 王涛, 杨松坡, 屈云超, 吴建军. 混合流环境下瓶颈区域车道定制化速度调控研究[J]. 交通运输系统工程与信息, 2025, 25(1): 76-85.
[15]	韩烽凡, 刘爽, 朱亚迪, 杨烨, 王曦. 数据驱动的城轨车站行人仿真方法研究[J]. 交通运输系统工程与信息, 2025, 25(1): 86-91.