Title :
Discrete event formalism to calculate acceptable safety distance
Author :
Bisgambiglia, Paul-Antoine ; Franceschini, Romain ; Chatelon, Francois-Joseph ; Rossi, Jean-Louis ; Bisgambiglia, Paul Antoine
Author_Institution :
UCPP, SPE, Univ. of Corsica, Corte, France
Abstract :
The aim of this paper is to present a dimensioning tool for fuelbreaks. It focuses on the overall approach and specifically mapping a physical model to a DEVS model, mapping a DEVS model to a DEVS service, and the client that communicates with the server. In order to assist the firefighters, we focus on a Web Service based on different software tools that can be used by firefighters to forecast fuelbreak safety zone sizes. This Web Service uses a simulation framework based on DEVS formalism, a theoretical fire spreading model developed at the University of Corsica and to display the results on a Google Map SDK. The SDK is embedded in a mobile application for touchscreen tablet. The application sends a request to our DEVS Web Service, with its geolocation, and in response receives data sets that allow to draw the safety distance.
Keywords :
Web services; discrete event simulation; fires; forestry; geographic information systems; mobile computing; safety; DEVS Web service; DEVS model; Google Map SDK; University of Corsica; acceptable safety distance; dimensioning tool; discrete event formalism; fire spreading model; firefighters; fuelbreak safety zone size forecasting; geolocation; mobile application; software tools; touchscreen tablet; Computational modeling; Data models; Fires; Mathematical model; Variable speed drives; Web services;
Conference_Titel :
Simulation Conference (WSC), 2013 Winter
Conference_Location :
Washington, DC
Print_ISBN :
978-1-4799-2077-8
DOI :
10.1109/WSC.2013.6721421
