His primary areas of study are Environmental science, Meteorology, Climatology, Precipitation and Global Precipitation Measurement. While working in this field, Arthur Y. Hou studies both Environmental science and PERSIANN. His Gprof, Tropical cyclone and Rain gauge study in the realm of Meteorology connects with subjects such as Water cycle.
His Climatology research is multidisciplinary, incorporating elements of Cloud cover, Atmospheric models and Atmospheric sciences. His Precipitation study integrates concerns from other disciplines, such as Data mining, Weather forecasting, Brightness temperature, Diurnal cycle and Data assimilation. In his research on the topic of Global Precipitation Measurement, Advanced Microwave Sounding Unit, Lidar and Natural hazard is strongly related with Snow.
Arthur Y. Hou mainly focuses on Meteorology, Precipitation, Environmental science, Climatology and Data assimilation. His Meteorology research integrates issues from Remote sensing and Cloud physics. Arthur Y. Hou has researched Precipitation in several fields, including Snow, Climate model and Numerical weather prediction.
Arthur Y. Hou has included themes like Cloud cover and Atmospheric models in his Climatology study. As a member of one scientific family, Arthur Y. Hou mostly works in the field of Data assimilation, focusing on Precipitable water and, on occasion, Moisture and Outgoing longwave radiation. He has researched Global Precipitation Measurement in several fields, including Lidar and Group on Earth Observations.
His primary areas of investigation include Meteorology, Precipitation, Environmental science, Global Precipitation Measurement and Weather Research and Forecasting Model. His Meteorology research is multidisciplinary, relying on both Climatology, Atmospheric sciences and Cloud physics. The various areas that he examines in his Climatology study include Atmospheric models and Aerosol.
His work focuses on many connections between Atmospheric sciences and other disciplines, such as Microphysics, that overlap with his field of interest in Bin. Arthur Y. Hou regularly links together related areas like Natural hazard in his Precipitation studies. His Global Precipitation Measurement study combines topics from a wide range of disciplines, such as Snow, Data assimilation and Convective storm detection.
Arthur Y. Hou mainly investigates Meteorology, Climatology, Mesoscale meteorology, Cloud physics and Environmental science. The study of Meteorology is intertwined with the study of Atmospheric sciences in a number of ways. Arthur Y. Hou combines subjects such as Microphysics, Cloud condensation nuclei, Atmosphere of Earth, Ensemble forecasting and Latent heat with his study of Atmospheric sciences.
He carries out multidisciplinary research, doing studies in Environmental science and Precipitation. His Land information system research includes elements of Water cycle, Aerosol, Weather Research and Forecasting Model and Atmospheric models. Arthur Y. Hou integrates many fields, such as Aerospace, Earth system science, Global Precipitation Measurement, Snow, PERSIANN and Natural hazard, in his works.
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The Global Precipitation Measurement Mission
Arthur Y. Hou;Ramesh K. Kakar;Steven Neeck;Ardeshir A. Azarbarzin.
Bulletin of the American Meteorological Society (2014)
The status of the tropical rainfall measuring mission (TRMM) after two years in orbit
C. Kummerow;J. Simpson;O. Thiele;W. Barnes.
Journal of Applied Meteorology (2000)
Does The Earth Have an Adaptive Infrared Iris
Richard S. Lindzen;Ming-Dah Chou;Arthur Y. Hou.
Global precipitation measurement: Methods, datasets and applications
Francisco J. Tapiador;F.J. Turk;Walt Petersen;Arthur Y. Hou.
Atmospheric Research (2012)
The Response of a Zonally Symmetric Atmosphere to Subtropical Thermal Forcing: Threshold Behavior
R. A. Plumb;Arthur Y. Hou.
Journal of the Atmospheric Sciences (1992)
Global Precipitation Measurement
Arthur Y. Hou;Gail Skofronick-Jackson;Christian D. Kummerow;James Marshall Shepherd.
Retrieval of Latent Heating from TRMM Measurements
W. K. Tao;E. A. Smith;R. F. Adler;Z. S. Haddad.
Bulletin of the American Meteorological Society (2006)
A Multiscale Modeling System: Developments, Applications, and Critical Issues
Wei-Kuo Tao;Jiun-Dar Chern;Robert Atlas;David Randall.
Bulletin of the American Meteorological Society (2009)
The influence of concentrated heating on the Hadley circulation
Arthur Y. Hou;Richard S. Lindzen.
Journal of the Atmospheric Sciences (1992)
Hadley Circulation as a Modulator of the Extratropical Climate
Arthur Y. Hou.
Journal of the Atmospheric Sciences (1998)
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