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P3.4 WATER VAPOR WINDS IN VICINITY OF CONVECTION AND WINTER STORMS 1,2 2
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Document Date: 2004-01-27 13:49:36

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City

Eufaula / Madison / Phoenix / Norman / /

Company

NOAA/National Severe Storms Laboratory / Mesoscale Convective Systems / /

Country

United States / /

Currency

pence / /

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Event

Natural Disaster / /

Facility

Cooperative Institute of Meteorological Satellite Studies / Cooperative Institute of Mesoscale Meteorological Studies / /

IndustryTerm

infrared satellite imagery / satellite imagery / real time / satellite analysis / satellite wind analysis / large systems / satellite winds / water vapor wind tracking algorithm / convective systems / satellite wind analyses / geostationary satellite water vapor observations / successive satellite images / operational water vapor wind products / examined using the satellite wind analyses / examined here using the satellite wind analyses / /

MusicGroup

UTC / /

Organization

Cooperative Institute of Meteorological Satellite Studies / Cooperative Institute / ETA / National Oceanic and Atmospheric Administration / NOAA Storm Prediction Center / National Aeronautics and Space Administration / /

Person

Robert M. Rabin / Jason Brunner / John Haynes / Carl Hane / /

Position

author / representative / /

ProvinceOrState

Texas / Kansas / Wisconsin / Minnesota / Illinois / Michigan / New Mexico / Oklahoma / Arizona / Colorado / Arkansas / Oklahoma and Arkansas / /

Region

southwest New Mexico / western Oklahoma / central Oklahoma / southern Minnesota / western Arkansas / northeast Texas / southern Colorado / central Arizona / eastern Oklahoma / north Texas / Midwest / central Wisconsin / northeast Colorado / eastern New Mexico / /

Technology

SUMMARY AND CONCLUSIONS The CIMSS water vapor wind tracking algorithm / water vapor wind tracking algorithm / /

URL

http /

SocialTag