2019
DOI: 10.1061/jtepbs.0000221
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Traffic Modeling for Wildland–Urban Interface Fire Evacuation

Abstract: Several traffic modelling tools are currently available for evacuation planning and real-time decision support during emergencies. In this article, we review potential traffic modelling approaches in the context of Wildland-Urban-Interface (WUI) fire evacuation applications. An overview of existing modelling approaches and features are evaluated pertaining to: fire-related, spatial and demographic factors, intended application (planning or decision support), and temporal issues. This systematic review shows th… Show more

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Cited by 31 publications
(28 citation statements)
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“…Overall, the results of the simulated scenarios demonstrate the capability of the KFDSP system to produce real-time predictions of smoke transport in terms of CO, PM 10 , and PM 2.5 concentrations given fire activity and weather. This indicates that the KFDSP system could be used as a screening model for a quick evacuation from the hazardous smoke of forest fires [44,45]. Particularly, it also implies that the capability of the real-time forecasting mode of the KFDSP system can effectively improve the accuracy of smoke plume dispersion predictions since a Gaussian plume model can only deal with a static dispersion, such as VSMOKE [46] and the Simple Approach Smoke Estimation Model (SASEM) [47].…”
Section: Effects Of Wind Speed and Direction On Smoke Plume Dispersionmentioning
confidence: 99%
“…Overall, the results of the simulated scenarios demonstrate the capability of the KFDSP system to produce real-time predictions of smoke transport in terms of CO, PM 10 , and PM 2.5 concentrations given fire activity and weather. This indicates that the KFDSP system could be used as a screening model for a quick evacuation from the hazardous smoke of forest fires [44,45]. Particularly, it also implies that the capability of the real-time forecasting mode of the KFDSP system can effectively improve the accuracy of smoke plume dispersion predictions since a Gaussian plume model can only deal with a static dispersion, such as VSMOKE [46] and the Simple Approach Smoke Estimation Model (SASEM) [47].…”
Section: Effects Of Wind Speed and Direction On Smoke Plume Dispersionmentioning
confidence: 99%
“…This perspective includes topics that affect traffic flow including household vehicle use, vehicle departure rates, routing, intersection control, network bottlenecks, directional egress, and lane-reversal (contraflow). These two historically separate perspectives can be combined, and contemporary research teams include behavioral experts and transportation experts that study (and model) all evacuation time components (the reader might see the contribution on Computational Evacuation Modelling in Wildfires) (Intini et al 2018).…”
Section: Behavioral and Transportation Researchmentioning
confidence: 99%
“…The 2016 Fort McMurray fire alone had the costliest impact in the Canadian history in terms of insured losses [43]. Due to these urgent needs, research has started to address the consequences of these incidents [8,30], provide measures to aid evacuation planning [9], and coupling fire, traffic and pedestrian models to aid response to such incidents [25,42,43].…”
Section: Introductionmentioning
confidence: 99%