Application of Extended Lattice Gas Automata Model in Ship Evacuation Simulation

Mob. Inf. Syst. Pub Date : 2021-12-20 DOI:10.1155/2021/6335388

Haoyang Han, Jun-dong Zhang, Ruizheng Jiang

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引用次数: 1

Abstract

Lattice gas automaton is a mathematical model that is used to simulate the horizontal uniform evacuation behaviour of a group. However, extended lattice gas automata model is proposed to examine marine evacuation behaviour, which is subject to deck heeling. The application of distance accumulation algorithm and the conversion probability mostly make the extended model, while the approach deals with the most complicated ship evacuation. Moreover, the suggested model is expected to enhance the safety and efficiency of evacuation. The distance accumulation lattice gas automata model considers multiple movement behaviours, flow density, deck heeling, counterflow, and congestion. Movement behaviour will be severely affected in deck heeling process where people may walk normally, walk while bent over, or crawl. To verify the proposed model, 11 test scenarios and several emergency evacuation scenarios are demonstrated. The simulation results explain the validity of another experimental model. The number of people in counterflow, deck heeling, and difference in movement have a direct effect on evacuation, which is as discussed in results. This research article provides a brief study on ship design and crew response behaviour in case of mishap/accident.

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扩展点阵气体自动机模型在船舶疏散仿真中的应用

点阵气体自动机是一种用于模拟群体水平均匀疏散行为的数学模型。然而，提出了扩展晶格气体自动机模型来研究受甲板倾斜影响的海上疏散行为。距离累积算法和转换概率算法的应用主要用于扩展模型，该方法处理的是最复杂的船舶疏散问题。此外，建议的模型有望提高疏散的安全性和效率。距离累积点阵气体自动机模型考虑了多种运动行为、流密度、甲板倾斜、逆流和拥塞。在甲板倾斜过程中，人们可能会正常行走、弯腰行走或匍匐行走，这将严重影响人们的运动行为。为了验证提出的模型，演示了11个测试场景和几个紧急疏散场景。仿真结果说明了另一个实验模型的有效性。逆流中的人数、甲板倾斜和运动的差异对疏散有直接的影响，结果讨论了这一点。本文对船舶设计和船员在发生事故时的反应行为进行了简要的研究。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Mob. Inf. Syst.

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