Affiliation:
1. Institute for Sustainability and Innovation in Structural Engineering, Department of Civil Engineering, University of Coimbra, 3030-788 Coimbra, Portugal
Abstract
Wildfires have become a common incident over the past decades, and they have been threatening people’s lives and assets. In the communities close to wildlands or wildland–urban interfaces (WUI), these threats become increasingly serious, and in case of wildfires, people are advised or often have to evacuate the area to save their lives. In order to have a safe and effective evacuation, data on people’s behavior and decisions during wildfires, evacuation modeling, and traffic simulations are required. This paper reviews past and recent research on evacuation, human behavior in wildfires, evacuation modeling, and traffic simulation. Similar research on evacuation in other situations is also reviewed, and the applicability of the models and simulations on wildfires is discussed. Different stages for an evacuation modeling design are assessed, and the gaps and challenges in obtaining an effective evacuation model are presented.
Subject
Fluid Flow and Transfer Processes,Computer Science Applications,Process Chemistry and Technology,General Engineering,Instrumentation,General Materials Science
Reference85 articles.
1. Fire $, or the economics of wildfires: State of play and new contributions;Robinne;For. Policy Econ.,2021
2. Characterising wildfire impacts on ecosystem services: A triangulation of scientific findings, governmental reports, and expert perceptions in Portugal;Pacheco;Environ. Sci. Policy,2023
3. Whelan, R.J. (1995). The Ecology of Fire, Cambridge Studies in Ecology, Cambridge University Press. [1st ed.].
4. IAFSS agenda 2030 for a fire safe world;McNamee;Fire Saf. J.,2019
5. US Department of Agriculture (2001). Report Registry 66.
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