The Experts below are selected from a list of 38514 Experts worldwide ranked by ideXlab platform
John T Ferree - One of the best experts on this subject based on the ideXlab platform.
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convective scale warn on forecast system a vision for 2020
2009Co-Authors: David J Stensrud, Ming Xue, Louis J Wicker, Kevin Kelleher, Michael P Foster, Joseph T Schaefer, Russell S Schneider, Stanley G Benjamin, Stephen S Weygandt, John T FerreeAbstract:The National Oceanic and Atmospheric Administration's (NOAA's) National Weather Service (NWS) issues warnings for severe thunderstorms, tornadoes, and flash floods because these phenomena are a threat to life and property. These warnings are presently based upon either visual confirmation of the phenomena or the observational detection of proxy signatures that are largely based upon radar observations. Convective-scale weather warnings are unique in the NWS, having little reliance on direct numerical forecast guidance. Because increasing severe thunderstorm, tornado, and flash-flood warning lead times are a key NOAA Strategic Mission goal designed to reduce the loss of life, injury, and economic costs of these high-impact weather phenomena, a new warning paradigm is needed in which numerical model forecasts play a larger role in convective-scale warnings. This new paradigm shifts the warning process from warn on detection to warn on forecast, and it has the potential to dramatically increase warning lead ...
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convective scale warn on forecast system
2009Co-Authors: David J Stensrud, Ming Xue, Louis J Wicker, Kevin Kelleher, Michael P Foster, Joseph T Schaefer, Russell S Schneider, Stanley G Benjamin, Stephen S Weygandt, John T FerreeAbstract:The National Oceanic and Atmospheric Administration's (NOAA's) National Weather Service (NWS) issues warnings for severe thunderstorms, tornadoes, and flash floods because these phenomena are a threat to life and property. These warnings are presently based upon either visual confirmation of the phenomena or the observational detection of proxy signatures that are largely based upon radar observations. Convective-scale weather warnings are unique in the NWS, having little reliance on direct numerical forecast guidance. Because increasing severe thunderstorm, tornado, and flash-flood warning lead times are a key NOAA Strategic Mission goal designed to reduce the loss of life, injury, and economic costs of these high-impact weather phenomena, a new warning paradigm is needed in which numerical model forecasts play a larger role in convective-scale warnings. This new paradigm shifts the warning process from warn on detection to warn on forecast, and it has the potential to dramatically increase warning lead ...
David J Stensrud - One of the best experts on this subject based on the ideXlab platform.
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convective scale warn on forecast system a vision for 2020
2009Co-Authors: David J Stensrud, Ming Xue, Louis J Wicker, Kevin Kelleher, Michael P Foster, Joseph T Schaefer, Russell S Schneider, Stanley G Benjamin, Stephen S Weygandt, John T FerreeAbstract:The National Oceanic and Atmospheric Administration's (NOAA's) National Weather Service (NWS) issues warnings for severe thunderstorms, tornadoes, and flash floods because these phenomena are a threat to life and property. These warnings are presently based upon either visual confirmation of the phenomena or the observational detection of proxy signatures that are largely based upon radar observations. Convective-scale weather warnings are unique in the NWS, having little reliance on direct numerical forecast guidance. Because increasing severe thunderstorm, tornado, and flash-flood warning lead times are a key NOAA Strategic Mission goal designed to reduce the loss of life, injury, and economic costs of these high-impact weather phenomena, a new warning paradigm is needed in which numerical model forecasts play a larger role in convective-scale warnings. This new paradigm shifts the warning process from warn on detection to warn on forecast, and it has the potential to dramatically increase warning lead ...
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convective scale warn on forecast system
2009Co-Authors: David J Stensrud, Ming Xue, Louis J Wicker, Kevin Kelleher, Michael P Foster, Joseph T Schaefer, Russell S Schneider, Stanley G Benjamin, Stephen S Weygandt, John T FerreeAbstract:The National Oceanic and Atmospheric Administration's (NOAA's) National Weather Service (NWS) issues warnings for severe thunderstorms, tornadoes, and flash floods because these phenomena are a threat to life and property. These warnings are presently based upon either visual confirmation of the phenomena or the observational detection of proxy signatures that are largely based upon radar observations. Convective-scale weather warnings are unique in the NWS, having little reliance on direct numerical forecast guidance. Because increasing severe thunderstorm, tornado, and flash-flood warning lead times are a key NOAA Strategic Mission goal designed to reduce the loss of life, injury, and economic costs of these high-impact weather phenomena, a new warning paradigm is needed in which numerical model forecasts play a larger role in convective-scale warnings. This new paradigm shifts the warning process from warn on detection to warn on forecast, and it has the potential to dramatically increase warning lead ...
Elaine Aspinwall - One of the best experts on this subject based on the ideXlab platform.
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development of a knowledge management initiative and system a case study
2006Co-Authors: Kuan Yew Wong, Elaine AspinwallAbstract:As knowledge emerges as the primary Strategic resource in the 21st century, many firms in the manufacturing and service sectors alike are beginning to introduce and implement Knowledge Management (KM). Organisations can certainly benefit from its application for enhanced decision support, efficiency and innovation, thus helping them to realise their Strategic Mission. However, KM is an emerging paradigm, and not many organisations have a clear idea of how to proceed with it. This paper presents the results of a case study conducted in one company in the United Kingdom (UK), the major aim being to identify how it has developed a KM initiative and system. Hopefully, the information extracted from this study will be beneficial to other organisations that are attempting to implement KM or to those that are in the throes of adopting it.
Stephen S Weygandt - One of the best experts on this subject based on the ideXlab platform.
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convective scale warn on forecast system a vision for 2020
2009Co-Authors: David J Stensrud, Ming Xue, Louis J Wicker, Kevin Kelleher, Michael P Foster, Joseph T Schaefer, Russell S Schneider, Stanley G Benjamin, Stephen S Weygandt, John T FerreeAbstract:The National Oceanic and Atmospheric Administration's (NOAA's) National Weather Service (NWS) issues warnings for severe thunderstorms, tornadoes, and flash floods because these phenomena are a threat to life and property. These warnings are presently based upon either visual confirmation of the phenomena or the observational detection of proxy signatures that are largely based upon radar observations. Convective-scale weather warnings are unique in the NWS, having little reliance on direct numerical forecast guidance. Because increasing severe thunderstorm, tornado, and flash-flood warning lead times are a key NOAA Strategic Mission goal designed to reduce the loss of life, injury, and economic costs of these high-impact weather phenomena, a new warning paradigm is needed in which numerical model forecasts play a larger role in convective-scale warnings. This new paradigm shifts the warning process from warn on detection to warn on forecast, and it has the potential to dramatically increase warning lead ...
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convective scale warn on forecast system
2009Co-Authors: David J Stensrud, Ming Xue, Louis J Wicker, Kevin Kelleher, Michael P Foster, Joseph T Schaefer, Russell S Schneider, Stanley G Benjamin, Stephen S Weygandt, John T FerreeAbstract:The National Oceanic and Atmospheric Administration's (NOAA's) National Weather Service (NWS) issues warnings for severe thunderstorms, tornadoes, and flash floods because these phenomena are a threat to life and property. These warnings are presently based upon either visual confirmation of the phenomena or the observational detection of proxy signatures that are largely based upon radar observations. Convective-scale weather warnings are unique in the NWS, having little reliance on direct numerical forecast guidance. Because increasing severe thunderstorm, tornado, and flash-flood warning lead times are a key NOAA Strategic Mission goal designed to reduce the loss of life, injury, and economic costs of these high-impact weather phenomena, a new warning paradigm is needed in which numerical model forecasts play a larger role in convective-scale warnings. This new paradigm shifts the warning process from warn on detection to warn on forecast, and it has the potential to dramatically increase warning lead ...
Stanley G Benjamin - One of the best experts on this subject based on the ideXlab platform.
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convective scale warn on forecast system a vision for 2020
2009Co-Authors: David J Stensrud, Ming Xue, Louis J Wicker, Kevin Kelleher, Michael P Foster, Joseph T Schaefer, Russell S Schneider, Stanley G Benjamin, Stephen S Weygandt, John T FerreeAbstract:The National Oceanic and Atmospheric Administration's (NOAA's) National Weather Service (NWS) issues warnings for severe thunderstorms, tornadoes, and flash floods because these phenomena are a threat to life and property. These warnings are presently based upon either visual confirmation of the phenomena or the observational detection of proxy signatures that are largely based upon radar observations. Convective-scale weather warnings are unique in the NWS, having little reliance on direct numerical forecast guidance. Because increasing severe thunderstorm, tornado, and flash-flood warning lead times are a key NOAA Strategic Mission goal designed to reduce the loss of life, injury, and economic costs of these high-impact weather phenomena, a new warning paradigm is needed in which numerical model forecasts play a larger role in convective-scale warnings. This new paradigm shifts the warning process from warn on detection to warn on forecast, and it has the potential to dramatically increase warning lead ...
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convective scale warn on forecast system
2009Co-Authors: David J Stensrud, Ming Xue, Louis J Wicker, Kevin Kelleher, Michael P Foster, Joseph T Schaefer, Russell S Schneider, Stanley G Benjamin, Stephen S Weygandt, John T FerreeAbstract:The National Oceanic and Atmospheric Administration's (NOAA's) National Weather Service (NWS) issues warnings for severe thunderstorms, tornadoes, and flash floods because these phenomena are a threat to life and property. These warnings are presently based upon either visual confirmation of the phenomena or the observational detection of proxy signatures that are largely based upon radar observations. Convective-scale weather warnings are unique in the NWS, having little reliance on direct numerical forecast guidance. Because increasing severe thunderstorm, tornado, and flash-flood warning lead times are a key NOAA Strategic Mission goal designed to reduce the loss of life, injury, and economic costs of these high-impact weather phenomena, a new warning paradigm is needed in which numerical model forecasts play a larger role in convective-scale warnings. This new paradigm shifts the warning process from warn on detection to warn on forecast, and it has the potential to dramatically increase warning lead ...
