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Tangential Change Behavior and Pedestrian Simulation of Multichannel Evacuation Crowd

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  • Lianghai Jin
  • Mei Fang
  • Shu Chen
  • Wenfan Lei
  • Yun Chen

Abstract

In evacuation, the velocity difference of adjacent pedestrians before and after often leads to tangential change of pedestrian location in channel. This tangential change behavior and its interaction disturb the stable state of crowd evacuation in multiple channels, which can affect the efficiency of crowd evacuation and even cause trampling accidents. This paper considers the dynamic comfort distance and the expected speed and analyzes the relative position changes after pedestrians change lanes. It investigates the conditions of tangential change behavior and defines the rules of tangential change behavior processing. Meanwhile, it investigates the crowd’s tangential change behavior and its interaction process, revealing the crowd evacuation mechanism of tangential change behavior conditions. Simulation results show that as the crowd density gradually increases, pedestrians exhibit the evolutionary characteristic of “no tangential change ⟶ occasional tangential change ⟶ frequent tangential change ⟶ closely following.†The evacuation speed is obviously influenced by pedestrian’s tangential change behavior and crowd density; when the pedestrian density and , the tangential change behavior not only makes the speed difference and fluctuation between different lanes great but also has the same effect on the average speed of pedestrians. The results of this study can provide theoretical insights into the organization of multichannel evacuation and expand the theoretical space of crowd dynamics in an evacuation.

Suggested Citation

  • Lianghai Jin & Mei Fang & Shu Chen & Wenfan Lei & Yun Chen, 2020. "Tangential Change Behavior and Pedestrian Simulation of Multichannel Evacuation Crowd," Mathematical Problems in Engineering, Hindawi, vol. 2020, pages 1-13, October.
  • Handle: RePEc:hin:jnlmpe:7649094
    DOI: 10.1155/2020/7649094
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    Cited by:

    1. Kai Yu & Nannan Qu & Jifeng Lu & Lujie Zhou, 2022. "Determining Subway Emergency Evacuation Efficiency Using Hybrid System Dynamics and Multiple Agents," Mathematics, MDPI, vol. 10(19), pages 1-18, October.

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