Continental-scale simulation of burn probabilities, flame lengths, and fire size distribution for the United States - Forest-fire model - Document - PDFSEARCH.IO - Document Search Engine

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	Continental-scale simulation of burn probabilities, flame lengths, and fire size distribution for the United States Add to Reading List Document Date: 2011-10-07 15:14:15 Open Document File Size: 2,59 MB Share Result on Facebook City Central Oregon / New York / / Company Kendall / McGraw-Hill / Stephens / Missoula Fire Sciences Laboratory / / Country United States / / / Event Man-Made Disaster / Natural Disaster / / Facility Rocky Mountain Research Station / Fort Collins / / IndustryTerm empirical distribution software / power-law distributions / minimum travel time methods / fire suppression algorithm / observed power-law behavior / observed power-law distribution / suppression algorithms / shortest travel times / minimum travel time / power-law fire size distributions / / NaturalFeature Forest Fire Research D. X. Viegas / / Organization U.S. Forest Service / USDA / USF Service / / Person Bill Breedlove / Charles W. McHugh / Donna Scholz / Danny Lee / Barb Loving / Stu Bedoll / Tom Quigley / Van Wagner / Jim Hutton / Schroeder / Brent Timothy / / / ProvinceOrState Georgia / Colorado / Montana / / PublishedMedium Forest Ecology and Management / Canadian Journal of Forest Research / / Region western United States / Central Oregon / / Technology radiation / alternative suppression algorithms / MTT algorithm / simulation system / simulation / fire suppression algorithm / / URL http / SocialTag Occupational safety and health Firefighting in the United States Fire Wildland fire suppression Wildfire National Fire Danger Rating System Energy Release Component Forest-fire model Ecology Firefighting