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Radar Hydrology Principles, Models, and Applications

Hong Yang Gourley Jonathan J.
Heftet / 2018 / Engelsk

Produktdetaljer

ISBN
9781138855366
Publisert
2018-04-30
Utgiver
Vendor
CRC Press
Vekt
408 gr
Høyde
234 mm
Bredde
156 mm
Aldersnivå
U, G, 05, 01
Språk
Product language
Engelsk
Format
Product format
Heftet
Antall sider
196

Forfatter
Hong Yang
Gourley Jonathan J.

Om bidragsyterne

Yang Hong is a professor of hydrometeorology and remote sensing in the School of Civil Engineering and Environmental Sciences, adjunct faculty member with the School of Meteorology, co-director of the WaTER Center, faculty member with the Advanced Radar Research Center, and affiliated member of the Center for Analysis and Prediction of Storms at the University of Oklahoma. Dr. Hong also directs the HyDROS Lab at the National Weather Center. Previously, he was a research scientist at NASA's Goddard Space Flight Center and postdoctoral researcher at University of California, Irvine. He holds a BS and MS from Peking (Beijing) University, China and Ph.D from the University of Arizona.

Jonathan J. Gourley is a research hydrologist with the NOAA/National Severe Storms Laboratory and affiliate associate professor with the School of Meteorology at the University of Oklahoma. His research interests include hydrologic prediction across scales ranging from water resources management to early warning of extreme events. Dr. Gourley was the principal inventor of a multisensor rainfall algorithm that was expanded to encompass all radars in North America and deployed to several foreign countries for operational use. He also assembled a comprehensive database that is being used to develop FLASH—a real-time flash flood forecasting system. He holds a BS, MS, and Ph.D from the University of Oklahoma.

Radar Hydrology Principles, Models, and Applications

Hong Yang Gourley Jonathan J.
Heftet / 2018 / Engelsk
Hong Yang Gourley Jonathan J.
Heftet / 2018 / Engelsk
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Radar Hydrology: Principles, Models, and Applications provides graduate students, operational forecasters, and researchers with a theoretical framework and practical knowledge of radar precipitation estimation. The only text on the market solely devoted to radar hydrology, this comprehensive reference:Begins with a brief introduction to radarFocuses on the processing of radar data to arrive at accurate estimates of rainfallAddresses advanced radar sensing principles and applicationsCovers radar technologies for observing each component of the hydrologic cycleExamines state-of-the-art hydrologic models and their inputs, parameters, state variables, calibration procedures, and outputsDiscusses contemporary approaches in data assimilationConcludes with methods, case studies, and prediction system designIncludes downloadable MATLAB® contentFlooding is the #1 weather-related natural disaster worldwide. Radar Hydrology: Principles, Models, and Applications aids in understanding the physical systems and detection tools, as well as designing prediction systems.
Les mer
Introduction to Basic Radar Principles. Radar Quantitative Precipitation Estimation. Polarimetric Radar Quantitative Precipitation Estimation. Multi-Radar Multi-Sensor (MRMS) Algorithm. Advanced Radar Technologies for Quantitative Precipitation Estimation. Radar Technologies for Observing the Water Cycle. Radar QPE for Hydrologic Modeling. Flash Flood Forecasting.
Les mer
"This is the first book on radar hydrology written by hydrologists. Whereas the excellent knowledge of radar technology by the authors permits an adequate coverage of the principles of rainfall rate estimation by radar, their hydrological background allows them to provide a unique message on the benefits (and on the remaining challenges) in exploiting radar techniques in hydrology. … In a clear and concise manner, the book combines topics from different scientific disciplines into a unified approach aiming to guide the reader through the requirements, strengths, and pitfalls of the application of radar technology in hydrology—mostly for flood prediction. Chapters include excellent discussion of theory, data analysis, and applications, along with several cross references for further review and useful conclusions."—Marco Borga, University of Padova, Italy
Les mer

Relaterte produkter

Radar Hydrology: Principles, Models, and Applications provides graduate students, operational forecasters, and researchers with a theoretical framework and practical knowledge of radar precipitation estimation. The only text on the market solely devoted to radar hydrology, this comprehensive reference:Begins with a brief introduction to radarFocuses on the processing of radar data to arrive at accurate estimates of rainfallAddresses advanced radar sensing principles and applicationsCovers radar technologies for observing each component of the hydrologic cycleExamines state-of-the-art hydrologic models and their inputs, parameters, state variables, calibration procedures, and outputsDiscusses contemporary approaches in data assimilationConcludes with methods, case studies, and prediction system designIncludes downloadable MATLAB® contentFlooding is the #1 weather-related natural disaster worldwide. Radar Hydrology: Principles, Models, and Applications aids in understanding the physical systems and detection tools, as well as designing prediction systems.
Les mer
Introduction to Basic Radar Principles. Radar Quantitative Precipitation Estimation. Polarimetric Radar Quantitative Precipitation Estimation. Multi-Radar Multi-Sensor (MRMS) Algorithm. Advanced Radar Technologies for Quantitative Precipitation Estimation. Radar Technologies for Observing the Water Cycle. Radar QPE for Hydrologic Modeling. Flash Flood Forecasting.
Les mer
"This is the first book on radar hydrology written by hydrologists. Whereas the excellent knowledge of radar technology by the authors permits an adequate coverage of the principles of rainfall rate estimation by radar, their hydrological background allows them to provide a unique message on the benefits (and on the remaining challenges) in exploiting radar techniques in hydrology. … In a clear and concise manner, the book combines topics from different scientific disciplines into a unified approach aiming to guide the reader through the requirements, strengths, and pitfalls of the application of radar technology in hydrology—mostly for flood prediction. Chapters include excellent discussion of theory, data analysis, and applications, along with several cross references for further review and useful conclusions."—Marco Borga, University of Padova, Italy
Les mer

Produktdetaljer

ISBN
9781138855366
Publisert
2018-04-30
Utgiver
Vendor
CRC Press
Vekt
408 gr
Høyde
234 mm
Bredde
156 mm
Aldersnivå
U, G, 05, 01
Språk
Product language
Engelsk
Format
Product format
Heftet
Antall sider
196

Forfatter
Hong Yang
Gourley Jonathan J.

Om bidragsyterne

Yang Hong is a professor of hydrometeorology and remote sensing in the School of Civil Engineering and Environmental Sciences, adjunct faculty member with the School of Meteorology, co-director of the WaTER Center, faculty member with the Advanced Radar Research Center, and affiliated member of the Center for Analysis and Prediction of Storms at the University of Oklahoma. Dr. Hong also directs the HyDROS Lab at the National Weather Center. Previously, he was a research scientist at NASA's Goddard Space Flight Center and postdoctoral researcher at University of California, Irvine. He holds a BS and MS from Peking (Beijing) University, China and Ph.D from the University of Arizona.

Jonathan J. Gourley is a research hydrologist with the NOAA/National Severe Storms Laboratory and affiliate associate professor with the School of Meteorology at the University of Oklahoma. His research interests include hydrologic prediction across scales ranging from water resources management to early warning of extreme events. Dr. Gourley was the principal inventor of a multisensor rainfall algorithm that was expanded to encompass all radars in North America and deployed to several foreign countries for operational use. He also assembled a comprehensive database that is being used to develop FLASH—a real-time flash flood forecasting system. He holds a BS, MS, and Ph.D from the University of Oklahoma.

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