Affiliation:
1. Department of Geography University of California Santa Barbara California USA
Abstract
ABSTRACTAccessibility between fire hydrants and buildings is paramount in emergency response, significantly influencing the efficiency and effectiveness of firefighting operations in the event of an incident. However, assessing this relationship within a geographic information system (GIS) framework presents challenges on two fronts. Obtaining the path avoiding building and parcel obstructions to hydrants is not trivial. Further, determining the furthest extent around a building exterior from hydrants is complicated, yet it is critically important given the spatial limitations of equipment reach. To assess furthest extent, an analytical framework is introduced based on the Euclidean shortest path problem. The proposed approach offers a comprehensive, automated GIS‐based methodology tailored to evaluate the dynamic relationship between hydrants and buildings. The developed methods are able to accurately and precisely identify the furthest point around a building structure from hydrant, facilitating risk assessment as well as fire code compliance. This enables a comprehensive evaluation of potential loss and structure vulnerability at property, street, neighborhood, and regional levels.
Reference56 articles.
1. Forest fire susceptibility modeling using hybrid approaches
2. Optimization of Emergency Evacuation in Fire Building by Integrated BIM and GIS;Atyabi S.;International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences,2019
3. Voronoi diagrams—a survey of a fundamental geometric data structure
4. Computing Dirichlet tessellations
5. California Fire Code.2022. “California Fire Code: Section 1.5.11 ‐ Building Access.” International code Council California Building Standards Commission.