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02093nam a2200193Ia 4500 |
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10.3390-app12083939 |
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220510s2022 CNT 000 0 und d |
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|a 20763417 (ISSN)
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245 |
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|a Determination of Forest Structure from Remote Sensing Data for Modeling the Navigation of Rescue Vehicles
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|b MDPI
|c 2022
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|z View Fulltext in Publisher
|u https://doi.org/10.3390/app12083939
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|a One of the primary purposes of forest fire research is to predict crisis situations and, also, to optimize rescue operations during forest fires. The research results presented in this paper provide a model of Cross-Country Mobility (CCM) of fire brigades in forest areas before or during a fire. In order to develop a methodology of rescue vehicle mobility in a wooded area, the structure of a forest must first be determined. We used a Digital Surface Model (DSM) and Digital Elevation Model (DEM) to determine the Canopy Height Model (CHM). DSM and DEM data were scanned by LiDAR. CHM data and field measurements were used for determining the approximate forest structure (tree height, stem diameters, and stem spacing between trees). Due to updating the CHM and determining the above-mentioned forest structure parameters, tree growth equations and vegetation growth curves were used. The approximate forest structure with calculated tree density (stem spacing) was used for modeling vehicle maneuvers between the trees. Stem diameter data were used in cases where it was easier for the vehicle to override the trees rather than maneuver between them. Although the results of this research are dependent on the density and quality of the input LiDAR data, the designed methodology can be used for modeling the optimal paths of rescue vehicles across a wooded area during forest fires. © 2022 by the author. Licensee MDPI, Basel, Switzerland.
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|a canopy height model (CHM)
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|a forest fire
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|a optimal pathfinding
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|a rescue vehicle
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|a vegetation structure
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|a Rybansky, M.
|e author
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|t Applied Sciences (Switzerland)
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