Safe evacuation framework with intelligent dynamic exit sign system and demonstration in tunnel fire

IF 3.7 Q1 PUBLIC, ENVIRONMENTAL & OCCUPATIONAL HEALTH

安全科学与韧性(英文) Pub Date : 2025-01-12 DOI:10.1016/j.jnlssr.2024.12.001

Ho Yin Wong , Meng Wang , Xiaoning Zhang , Yuxin Zhang , Ming Chi Wong , Xinyan Huang

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引用次数: 0

Abstract

Emergency exit sign systems guide occupants to safety, but they may fail in fires when smoke blocks routes. This study introduces an Intelligent Dynamic Exit Sign (IDES) system, integrating a fire-detection sensor network with dynamic sign patterns, which could enhance evacuation safety by always guiding occupants away from hazards. The system's operation framework and design rules ensure effective implementation. To address ethical concerns in complex scenarios, IDES includes a reversion mechanism that switches dynamic signs back to conventional static signs when necessary. The system's effectiveness is demonstrated through prototyping in a lab-scale tunnel model, assessing both the dynamic patterns and hardware reliability. Results show the potential of IDES to automatically optimize evacuation procedures and occupant safety during emergencies. Furthermore, the study delves into challenges associated with real-world implementation and offers insights for future applications of this innovative safety solution in more complex built environments.

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具有智能动态出口标识系统的安全疏散框架及隧道火灾演示

紧急出口标志系统引导居住者到安全的地方，但当烟雾阻挡路线时，它们可能在火灾中失效。本文介绍了一种智能动态出口标志（IDES）系统，该系统集成了火灾探测传感器网络和动态标志模式，可以通过始终引导居住者远离危险来提高疏散安全性。系统的运行框架和设计规则保证了系统的有效实施。为了解决复杂情况下的伦理问题，ide包括一个转换机制，在必要时将动态标志切换回传统的静态标志。通过在实验室规模的隧道模型中进行原型设计，评估了系统的动态模式和硬件可靠性，证明了系统的有效性。结果表明，在紧急情况下，IDES具有自动优化疏散程序和乘员安全的潜力。此外，该研究深入研究了与现实世界实施相关的挑战，并为这种创新的安全解决方案在更复杂的建筑环境中的未来应用提供了见解。

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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