J Shanghai Jiaotong Univ Sci ›› 2021, Vol. 26 ›› Issue (4): 522-533.doi: 10.1007/s12204-021-2287-3

• Computer & Communication Engineering • Previous Articles     Next Articles

Adaptive Agent-Based Modeling Framework for Collective Decision-Making in Crowd Building Evacuation

Adaptive Agent-Based Modeling Framework for Collective Decision-Making in Crowd Building Evacuation

CHEN Feier *(陈飞儿), ZHAO Qiyuan (赵祺源), CAO Mingming (曹明明), CHEN Jiayi (陈嘉屹), FU Guiyuan (傅桂元)   

  1. (1. State Key Laboratory of Ocean Engineering; Key Laboratory of Marine Intelligent Equipment and
    System of Ministry of Education, Shanghai Jiao Tong University, Shanghai 200240, China;
    2. Marautec Co., Ltd., Shanghai 201206, China; 3. Zhiyuan College, Shanghai Jiao Tong University,
    Shanghai 200240, China; 4. School of Mathematical Sciences, Shanghai Jiao Tong University,
    Shanghai 200240, China; 5. Institute of Fintech, Shanghai University of
    Finance and Economics, Shanghai 200433, China)
  2. (1. State Key Laboratory of Ocean Engineering; Key Laboratory of Marine Intelligent Equipment and
    System of Ministry of Education, Shanghai Jiao Tong University, Shanghai 200240, China;
    2. Marautec Co., Ltd., Shanghai 201206, China; 3. Zhiyuan College, Shanghai Jiao Tong University,
    Shanghai 200240, China; 4. School of Mathematical Sciences, Shanghai Jiao Tong University,
    Shanghai 200240, China; 5. Institute of Fintech, Shanghai University of
    Finance and Economics, Shanghai 200433, China)
  • Online:2021-08-28 Published:2021-06-13
  • Contact: CHEN Feier *(陈飞儿) E-mail:chenfeier@sjtu.edu.cn

Abstract: Crowd evacuation in different situations is an important topic in the research field of safety. This paper presents a hybrid model for heterogeneous pedestrian evacuation simulation. Our adaptive agent-based model (ABM) combines the strength of human crowd behavior description from classical social force models with discrete dynamics expression from cellular automaton models by extending the conception of floor field. Several important factors which may influence the results of decision-making of pedestrians are taken into consideration, such as the location of sign, the attraction of exit, and the interaction among pedestrians. To compare the effect of information on the pedestrians, we construct three decision-making mechanisms with different assumptions. To validate these three simulation models, we compare the numerical results from different perspectives with rational range in the case study where the Tampere Theater evacuation was carried out. The ABM framework is open for rules modification and could be applied to different building plans and has implication for architectural design of gates and signs in order to increase the evacuation efficiency.


Key words: adaptive agent-based model | evacuation simulation | emergency | interaction | heterogeneity

摘要: Crowd evacuation in different situations is an important topic in the research field of safety. This paper presents a hybrid model for heterogeneous pedestrian evacuation simulation. Our adaptive agent-based model (ABM) combines the strength of human crowd behavior description from classical social force models with discrete dynamics expression from cellular automaton models by extending the conception of floor field. Several important factors which may influence the results of decision-making of pedestrians are taken into consideration, such as the location of sign, the attraction of exit, and the interaction among pedestrians. To compare the effect of information on the pedestrians, we construct three decision-making mechanisms with different assumptions. To validate these three simulation models, we compare the numerical results from different perspectives with rational range in the case study where the Tampere Theater evacuation was carried out. The ABM framework is open for rules modification and could be applied to different building plans and has implication for architectural design of gates and signs in order to increase the evacuation efficiency.


关键词: adaptive agent-based model | evacuation simulation | emergency | interaction | heterogeneity

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