Herein, a case study on the impact of assimilating satellite radiance observation data into the rapid-refresh multi-scale analysis and prediction system (RMAPS) is presented. This case study targeted the 48 h period from 19–20 July 2016, which was characterized by the passage of a low pressure system that produced heavy rainfall over North China. Two experiments were performed and 24 h forecasts were produced every 3 h. The results indicated that the forecast prior to the satellite radiance data assimilation could not accurately predict heavy rainfall events over Beijing and the surrounding area. The assimilation of satellite radiance data from the advanced microwave sounding unit-A (AMSU-A) and microwave humidity sounding (MHS) impro...
The forthcoming Global Precipitation Measurement (GPM) Mission will provide next generation precipit...
This study attempts to investigate the impact of assimilation of satellite radiances and its role to...
Precipitation in arid mountainous areas is characterized by low rainfall intensity and large spatial...
Herein, a case study on the impact of assimilating satellite radiance observation data into the rapi...
Currently, humidity information can be obtained from the Microwave Humidity Sounder-2 (MWHS-2) mount...
This study examines the impact of three-dimensional variational data assimilation (3DVAR) on the pre...
In this study, the China Hourly Merged Precipitation Analysis (CHMPA) data which combines the satell...
Data assimilation is an effective tool in improving high-resolution rainfall of the numerical weath...
Weather Research and Forecasting (WRF) is a mesoscale numerical weather prediction model that can pr...
In this study, the regional Weather Research and Forecasting model (WRF)-based quantitative precipit...
This study investigated the impact of the assimilation of satellite radiance observations in a three...
Satellite microwave humidity sounding data are assimilated through the gridpoint statistical interpo...
Operational monsoon moisture surveillance and severe weather prediction is essential for timely wate...
The Global Precipitation Mission, a satellite project under consideration as a follow-on to the Trop...
High-frequency TMI and AMSR-E radiances, which are sensitive to precipitation over land, are assimil...
The forthcoming Global Precipitation Measurement (GPM) Mission will provide next generation precipit...
This study attempts to investigate the impact of assimilation of satellite radiances and its role to...
Precipitation in arid mountainous areas is characterized by low rainfall intensity and large spatial...
Herein, a case study on the impact of assimilating satellite radiance observation data into the rapi...
Currently, humidity information can be obtained from the Microwave Humidity Sounder-2 (MWHS-2) mount...
This study examines the impact of three-dimensional variational data assimilation (3DVAR) on the pre...
In this study, the China Hourly Merged Precipitation Analysis (CHMPA) data which combines the satell...
Data assimilation is an effective tool in improving high-resolution rainfall of the numerical weath...
Weather Research and Forecasting (WRF) is a mesoscale numerical weather prediction model that can pr...
In this study, the regional Weather Research and Forecasting model (WRF)-based quantitative precipit...
This study investigated the impact of the assimilation of satellite radiance observations in a three...
Satellite microwave humidity sounding data are assimilated through the gridpoint statistical interpo...
Operational monsoon moisture surveillance and severe weather prediction is essential for timely wate...
The Global Precipitation Mission, a satellite project under consideration as a follow-on to the Trop...
High-frequency TMI and AMSR-E radiances, which are sensitive to precipitation over land, are assimil...
The forthcoming Global Precipitation Measurement (GPM) Mission will provide next generation precipit...
This study attempts to investigate the impact of assimilation of satellite radiances and its role to...
Precipitation in arid mountainous areas is characterized by low rainfall intensity and large spatial...