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Weather prediction / Weather radars / National Weather Service / Radar meteorology / NEXRAD / Data assimilation / Atmospheric model / Center for Analysis and Prediction of Storms / Thunderstorm / Meteorology / Atmospheric sciences / Storm


The Analysis and Prediction of Microphysical States and Polarimetric Radar Variables in a Mesoscale Convective System Using Double-Moment Microphysics, Multi-Network Radar Data, and the Ensemble Kalman Filter Bryan J. Pu
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Document Date: 2013-08-12 14:56:38

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File Size: 4,36 MB

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City

Oklahoma City / Norman / Lawton / Lawton and Oklahoma City / /

Company

National Severe Storms Laboratory / /

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Event

Natural Disaster / /

Facility

National Severe Storms Laboratory / Advanced Radar Research Center / University of Oklahoma / Vance Air Force Base / Storms University of Oklahoma / /

IndustryTerm

turbulent kinetic energy / radar networks / /

NaturalFeature

Rio Grande / Oklahoma City/Twin Lakes / /

Organization

Center for Analysis and Predication of Storms / University of Oklahoma / EnKF DA / Engineering Research Center for Collaborative and Adaptive / Center for Analysis / School of Meteorology / Advanced Radar Research Center / National Aeronautics and Space Administration / Prediction Center / SM MP / National Weather Service / Goddard Space Flight Center / /

Person

Xue / Tong / /

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Position

author / experiments using warm-rain MP / bulk MP / MP / multiple MP / estimated MP / model / radar data / model MP / /

ProgrammingLanguage

R / /

ProvinceOrState

Texas / Dakotas / New Mexico / Oklahoma / Arkansas / /

Region

western Texas / western Oklahoma / central Oklahoma / eastern New Mexico / west Texas / central Texas / southwest Texas / /

Technology

radiation / sublimation / BMP / simulation / /

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