Crowd Evacuation for Indoor Public Spaces Using Coulomb's Law

Pejman Kamkarian, H. Hexmoor
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引用次数: 12

Abstract

This paper focuses on designing a tool for guiding a group of people out of a public building when they are faced with dangerous situations that require immediate evacuation. Despite architectural attempts to produce safe floor plans and exit door placements, people will still commit to fatal route decisions. Since they have access to global views, we believe supervisory people in the control room can use our simulation tools to determine the best courses of action for people. Accordingly, supervisors can guide people to safety. In this paper, we combine Coulomb's electrical law, graph theory, and convex and centroid concepts to demonstrate a computer-generated evacuation scenario that divides the environment into different safe boundaries around the locations of each exit door in order to guide people through exit doors safely and in the most expedient time frame. Our mechanism continually updates the safe boundaries at each moment based on the latest location of individuals who are present inside the environment. Guiding people toward exit doors depends on the momentary situations in the environment, which in turn rely on the specifications of each exit door. Our mechanism rapidly adapts to changes in the environment in terms of moving agents and changes in the environmental layout that might be caused by explosions or falling walls.
基于库仑定律的室内公共空间人群疏散
本文的重点是设计一个工具,当一群人面临需要立即疏散的危险情况时,引导他们离开公共建筑。尽管建筑设计试图设计出安全的楼层布局和出口位置,但人们仍然会做出致命的路线决定。由于他们可以获得全局视图,我们相信控制室的主管人员可以使用我们的模拟工具来确定人们的最佳行动方案。因此,管理者可以引导人们到安全的地方。在本文中,我们结合库仑电学定律、图论以及凸形和质心概念来演示计算机生成的疏散场景,该场景将每个出口门周围的环境划分为不同的安全边界,以便在最方便的时间框架内引导人们安全通过出口门。我们的机制每时每刻都在根据环境中个体的最新位置不断更新安全边界。引导人们走向出口门取决于环境中的瞬间情况,而瞬间情况又取决于每个出口门的规格。我们的机制可以快速适应环境的变化,比如移动的代理和环境布局的变化,这些变化可能是由爆炸或倒塌的墙壁引起的。
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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