The Analysis of 2D Crowd Behaviour Simulation during Emergency Situation
Authors: 
Hamizan Sharbini, Nur Aisyah binti Masrizal, Chiu Po Chan, Cheah Wai Shiang, Azlina Ahmadi Julaihi, Tan Ping Ping, Noor Alamshah BolhassanAuthors Info & Claims
Hamizan Sharbini, Nur Aisyah binti Masrizal, Chiu Po Chan, Cheah Wai Shiang, Azlina Ahmadi Julaihi, Tan Ping Ping, Noor Alamshah BolhassanAuthors Info & ClaimsPages 296 - 300
Abstract
This paper will discuss about general crowd behaviour modeling during evacuation in emergency situation such as during fire breakout. Several existing simulation tools and comparison among each tool will also be discussed. The aim of this project is to develop a generic crowd model, which has the ability to demonstrate individual crowd behaviours (micro level) especially in fire emergency situation with one or more exits. The program will be able to estimate the evacuation time of panic situation during fire breakout. Apart from that, this paper also will analyze and prove that the individual agent in the simulation is able to detect and avoid collision. During panic situation, agents need to search for the exit in order to save themselves from danger. The proposed crowd simulation used agent in 2D as to simulate the crowd behaviour model while steering towards the exit.
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Published In
September 2019
398 pages
ISBN:9781450376532
DOI:10.1145/3364335
Copyright © 2019 ACM.
© 2019 Association for Computing Machinery. ACM acknowledges that this contribution was authored or co-authored by an employee, contractor or affiliate of a national government. As such, the Government retains a nonexclusive, royalty-free right to publish or reproduce this article, or to allow others to do so, for Government purposes only.
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- The Hong Kong Polytechnic: The Hong Kong Polytechnic University
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New York, NY, United States
Publication History
Published: 27 September 2019
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- Research
- Refereed limited
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- Myra Special Short Term Grant (SpSTG F08/SpSTG/1565/2017)
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ICIBE 2019
ICIBE 2019: 2019 The 5th International Conference on Industrial and Business Engineering
September 27 - 29, 2019
Hong Kong, Hong Kong
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