INFED: Enhancing fire evacuation dynamics through 3D congestion-aware indoor navigation framework

IF 3.5 2区 计算机科学 Q2 COMPUTER SCIENCE, INTERDISCIPLINARY APPLICATIONS Simulation Modelling Practice and Theory Pub Date : 2024-08-14 DOI:10.1016/j.simpat.2024.103010
Ritik Bhardwaj , Arpita Bhargava , Vaibhav Kumar
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Abstract

This paper introduces Indoor Navigation Framework for Fire Evacuation Dynamics (INFED), a novel indoor navigation framework that combines dynamic fire constraints and path congestion management. INFED considers the three-dimensional (3D) attributes of both the agents (speed, volume, location, count) and the environment (3D volume, congestion, corridor height, and corridor length) to estimate navigation routes that avoid fire-affected evacuation paths. It achieves this by integrating various proposed algorithms as modules: Environment Establisher, Fired/Safe Node Identifier, Pre-processor, Weighted Graph Generator, and Path Generator. The 3D features of the agent and environment are used to effectively estimate the capacity of the corridors in an indoor environment for the estimation of path congestion. The path congestion so computed is used during evacuation to identify the safest and congestion-free path. We discuss the performance of INFED by implementing it on various realistic scenarios in a commercial floor setup. We found that the incorporation of safety constraints results in longer evacuation routes, ranging from a 6% increase under mild fire and congestion conditions to a 40% increase under severe fire and congestion conditions. In the event of a worst-case scenario where fire-free paths are scarce, INFED utilizes congestion to reduce agent speed along the recommended evacuation route. This mechanism is activated when congestion surpasses a threshold of 0.3. The system can be used by stakeholders to test various evacuation hypotheses, which can lead to better preparedness and rescue operations, ultimately saving lives in the event of a fire.

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INFED:通过三维拥堵感知室内导航框架增强火灾疏散动力
本文介绍了火灾疏散动态室内导航框架(INFED),这是一种结合了动态火灾约束和路径拥堵管理的新型室内导航框架。INFED 考虑了人员的三维属性(速度、体积、位置、数量)和环境的三维属性(体积、拥挤程度、走廊高度和走廊长度),以估算避开受火灾影响的疏散路径的导航路线。为实现这一目标,它将各种拟议算法作为模块进行了整合:环境生成器、着火/安全节点识别器、预处理器、加权图生成器和路径生成器。代理和环境的三维特征可用于有效估算室内环境中走廊的容量,以估算路径拥堵情况。计算出的路径拥堵情况可在疏散过程中用于确定最安全、无拥堵的路径。我们讨论了 INFED 的性能,将其应用于商业楼层设置中的各种现实场景。我们发现,加入安全约束条件后,疏散路线的长度会延长,从轻微火灾和拥堵条件下的 6% 到严重火灾和拥堵条件下的 40%。在最糟糕的情况下,如果无火灾路径稀少,INFED 会利用拥堵情况降低推荐疏散路径上的代理速度。当拥堵程度超过 0.3 临界值时,该机制就会启动。利益相关者可利用该系统测试各种疏散假设,从而更好地做好准备和开展救援行动,最终在发生火灾时挽救生命。
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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来源期刊
Simulation Modelling Practice and Theory
Simulation Modelling Practice and Theory 工程技术-计算机:跨学科应用
CiteScore
9.80
自引率
4.80%
发文量
142
审稿时长
21 days
期刊介绍: The journal Simulation Modelling Practice and Theory provides a forum for original, high-quality papers dealing with any aspect of systems simulation and modelling. The journal aims at being a reference and a powerful tool to all those professionally active and/or interested in the methods and applications of simulation. Submitted papers will be peer reviewed and must significantly contribute to modelling and simulation in general or use modelling and simulation in application areas. Paper submission is solicited on: • theoretical aspects of modelling and simulation including formal modelling, model-checking, random number generators, sensitivity analysis, variance reduction techniques, experimental design, meta-modelling, methods and algorithms for validation and verification, selection and comparison procedures etc.; • methodology and application of modelling and simulation in any area, including computer systems, networks, real-time and embedded systems, mobile and intelligent agents, manufacturing and transportation systems, management, engineering, biomedical engineering, economics, ecology and environment, education, transaction handling, etc.; • simulation languages and environments including those, specific to distributed computing, grid computing, high performance computers or computer networks, etc.; • distributed and real-time simulation, simulation interoperability; • tools for high performance computing simulation, including dedicated architectures and parallel computing.
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