Agent-based approach for crowded pedestrian evacuation simulation
Authored by Xianye Ben, Xifa Huang, Zhaoyi Zhuang, Rui Yan, Sen Xu
Date Published: 2013-03
DOI: 10.1049/iet-its.2011.0236
Sponsors:
Specialized Research Fund for the Doctoral Program of Higher Education of China
Fundamental Research Funds for the China Institute of Sport Science
Independent Innovation Foundation of Shandong University
National Science Foundation of China
Platforms:
No platforms listed
Model Documentation:
Other Narrative
Flow charts
Mathematical description
Model Code URLs:
Model code not found
Abstract
Pedestrian evacuation has long been a vital safety concern for any large indoor facility, for example, gymnasium or stadium. To efficiently simulate crowded pedestrian evacuation, an agent-based modelling approach in the cellular automata (CA) environment is proposed in this study. Different from a stand-alone CA method which roughly describes the external environment, the proposed agent-based modelling approach can describe individual behaviour more accurately. In order to verify the crowded pedestrian evacuation simulation and reflect the behaviour of pedestrian crowds' evacuation, this study simulates four evacuation scenarios as follows: (i) an ordered activity area with no obstacles, (ii) an unordered activity area with no obstacles, (iii) an ordered activity area with obstacles and (iv) an unordered activity area with obstacles. The effects of the parameters on the evacuation simulation process and the effects of maximal endurance capability on the number of casualties are also analysed. Furthermore, the order of evacuation of pedestrians with different competitive capabilities is estimated. The simulation results show that the proposed modelling framework, principles and methods are effective, and the model has a strong capability to describe, represent and explain the reality of evacuation.
Tags