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        Fire propagation visualization in real time

        Visualización de la Propagación del Fuego en Incendios Forestales en Tiempo Real

        Registro en:
        Denham, Mónica., Waidelich, Sigfrido & Laneri, Karina. (2018). Fire propagation visualization in real time. Journal of Computer Science and Technology; 18 (03); e27.
        1666-6046
        1666-6038
        https://journal.info.unlp.edu.ar/JCST/article/view/1102
        https://rid.unrn.edu.ar/jspui/handle/20.500.12049/4234
        https://doi.org/10.24215/16666038.18.e27
        https://repositorioslatinoamericanos.uchile.cl/handle/2250/8539096
        Autor
        Waidelich, Sigfrido
        Laneri, Karina
        Denham, Mónica M.
        Institución
        • Universidad Nacional de Río Negro (Argentina)
        Resumen
        Fil: Waidelich, Sigfrido. Universidad Nacional de Río Negro. Laboratorio de Procesamiento de Señales Aplicado y Computación de Alto Rendimiento. Río Negro; Argentina.
         
        Fil: Denham, Mónica. Universidad Nacional de Río Negro. Laboratorio de Procesamiento de Señales Aplicado y Computación de Alto Rendimiento. Río Negro; Argentina.
         
        Fil: Denham, Mónica. Consejo Nacional de Investigaciones Científicas y Técnicas; Argentina.
         
        Fil: Laneri, Karina. Consejo Nacional de Investigaciones Científicas y Técnicas; Argentina.
         
        Fil: Laneri, Karina. Centro Atómico Bariloche.Grupo de Física Estadística e Interdisciplinaria. Río Negro; Argentina
         
        Our motivation comes from the need of a tailored computational tool for simulation and prediction of forest fire propagation, to be used by firefighters in Patagonia, Argentina. Based on previous works on Graphic Processing Units (GPU) for fitting and simulating fires in our region, we developed a visualization interface for real time computing, simulation and prediction of fire propagation. We have the possibility of changing the ensemble of raster maps layers to change the region in which fire will propagate. The visualization platform runs on GPUs and the user can rotate and zoom the landscape to select the optimal view of fire propagation. Opacity of different layers can be regulated by the user, allowing to see fire propagation at the same time that underlying vegetation, wind direction and intensity. The ignition point can also be selected by the user, and firebreaks can be plotted while simulation is going on. After the performance of a high number of stochastic simulations in parallel in GPUs, the application shows a map of the final fire surface colored according to the probability that a given cell burns. In this way the user can visually identify the most critical direction for fire propagation, a useful information to stop fire optimizing resources, which is specially important when they are scarce like is the case of our Patagonia region.
         
        true
         
        Our motivation comes from the need of a tailored computational tool for simulation and prediction of forest fire propagation, to be used by firefighters in Patagonia, Argentina. Based on previous works on Graphic Processing Units (GPU) for fitting and simulating fires in our region, we developed a visualization interface for real time computing, simulation and prediction of fire propagation. We have the possibility of changing the ensemble of raster maps layers to change the region in which fire will propagate. The visualization platform runs on GPUs and the user can rotate and zoom the landscape to select the optimal view of fire propagation. Opacity of different layers can be regulated by the user, allowing to see fire propagation at the same time that underlying vegetation, wind direction and intensity. The ignition point can also be selected by the user, and firebreaks can be plotted while simulation is going on. After the performance of a high number of stochastic simulations in parallel in GPUs, the application shows a map of the final fire surface colored according to the probability that a given cell burns. In this way the user can visually identify the most critical direction for fire propagation, a useful information to stop fire optimizing resources, which is specially important when they are scarce like is the case of our Patagonia region.
         
        Materias
        Ingeniería, Ciencia y Tecnología
        Forest Fire Simulation
        GPGPU
        High Performance Computing
        Ingeniería, Ciencia y Tecnología

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        Dirección de Servicios de Información y Bibliotecas (SISIB)
        Universidad de Chile
        Red de Repositorios Latinoamericanos | 2006-2018