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Título: Visualization and modeling of forest fire propagation in Patagonia
Autor(es): Denham, Mónica
Waidelich, Sigfrido
Laneri, Karina
Fecha de publicación: dic-2022
Editorial: ELSEVIER
Citación: Denham, M. M., Waidelich, S., & Laneri, K. (2022). Visualization and modeling of forest fire propagation in Patagonia. Environmental Modelling & Software; 158; 105526. https://doi.org/10.1016/j.envsoft.2022.105526
Revista: Journal of Environmental Modelling and Software
Abstract: Fire propagation is a big concern all over the world. Visualization is a valuable tool to test possible different scenarios for fire spread, specially for designing strategies for fire control, mitigation and management. We present a parallel High-Performance Computing (HPC) forest fire simulator with an interactive and intuitive user interface that offers several functionalities to the user. The visualization interface allows to choose the propagation model of preference, the scenario of interest, as well as numerous simulation features including firebreaks and ignition points. We show some of the outputs for two different mathematical models for fire spreading. The simulator was developed with an open source philosophy in the framework of Faster Than Real Time (FTRT) applications thinking on its possible use in the field during a forest fire propagation. It can be run in Linux (Ubuntu) and Windows Operating Systems and for portability purposes the simulator was also implemented on a NVIDIA Jetson Nano.
Resumen: Fire propagation is a big concern all over the world. Visualization is a valuable tool to test possible different scenarios for fire spread, specially for designing strategies for fire control, mitigation and management. We present a parallel High-Performance Computing (HPC) forest fire simulator with an interactive and intuitive user interface that offers several functionalities to the user. The visualization interface allows to choose the propagation model of preference, the scenario of interest, as well as numerous simulation features including firebreaks and ignition points. We show some of the outputs for two different mathematical models for fire spreading. The simulator was developed with an open source philosophy in the framework of Faster Than Real Time (FTRT) applications thinking on its possible use in the field during a forest fire propagation. It can be run in Linux (Ubuntu) and Windows Operating Systems and for portability purposes the simulator was also implemented on a NVIDIA Jetson Nano.
URI: http://rid.unrn.edu.ar/handle/20.500.12049/9237
Identificador DOI: https://doi.org/10.1016/j.envsoft.2022.105526
ISSN: 1364-8152
Otros enlaces: https://www.sciencedirect.com/science/article/pii/S1364815222002262?via%3Dihub
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