TU1.R19.5

ANALYSIS OF MICROWAVE SCATTERING PROPERTIES OF NON-SPHERICAL ICE PARTICLES USING DISCRETE DIPOLE APPROXIMATION

Jun Yang, Fuzhong Weng, Chinese Academy of Meteorological Sciences, China

Session:
Clouds and Numerical Weather Prediction

Track:
Atmosphere Applications

Presentation Time:
Tue, 29 Sep, 12:40-12:50 (UTC)
Tue, 29 Sep, 20:40-20:50 China Standard Time (UTC +8)
Tue, 29 Sep, 14:40-14:50 Central Europe Summer Time (UTC +2)
Tue, 29 Sep, 05:40-05:50 Pacific Daylight Time (UTC -7)

Session Co-Chairs:
Rachel Kroodsma, University of Maryland and Fuzhong Weng, State Key Laboratory Severe Storms
Session Managers:
Muhammad Adnan Siddique and Rabia Munsaf Khan

Presentation

Discussion

Resources

Session

TU1.R19.1: An investigation of a probabilistic nowcast system for dual-polarization radar applications
Jianchang Zhang, Ocean University of China, China; Haonan Chen, NOAA Physical Sciences Laboratory, United States; Lei Han, Ocean University of China, China
TU1.R19.2: ASSIMATION OF FY3D COMBINED MICROWAVE SOUNDER OBSERVATION IN ATMS ALIKE ONE DATA STREAM
Peiming Dong, Jun Yang, Fuzhong Weng, Qien Huang, Wanlin Kan, Chinese Academy of Meteorological Sciences, China
TU1.R19.3: GAN-GENERATED ELEVATION MODELS IN COMPUTATIONAL FLUID DYNAMICS: A FEASIBILITY STUDY FOR COMPLEX URBAN TERRAIN
Maximilian Langheinrich, Ksenia Bittner, Peter Reinartz, German Aerospace Center (DLR), Germany
TU1.R19.4: A SIMULATING METHOD OF AIRSHIP-BORNE POLARIMETRIC WEATHER RADAR FOR TYPHOON OBSERVATION
Zewei Zhao, Beijing Insitute of Technology, China; Xichao Dong, Beijing Institute of Technology, China; Jianing Feng, Xudong Liang, Chinese Academy of Meteorological Sciences, China; Cheng Hu, Beijing Institute of Technology, China
TU1.R19.5: ANALYSIS OF MICROWAVE SCATTERING PROPERTIES OF NON-SPHERICAL ICE PARTICLES USING DISCRETE DIPOLE APPROXIMATION
Jun Yang, Fuzhong Weng, Chinese Academy of Meteorological Sciences, China
TU1.R19.6: ASSIMILATION OF GNSS-R DELAY-DOPPLER MAPS INTO WEATHER MODELS
Feixiong Huang, Purdue University, United States; James Garrison, Purdue Univeristy, United States; Mark Leidner, Atmospheric and Environmental Research, United States; Bachir Annane, Cooperative Institute for Marine and Atmospheric Studies, United States; Giuseppe Grieco, Ad Stoffelen, Royal Netherlands Meteorological Institute, Netherlands; Ross Hoffman, Atmospheric and Environmental Research, United States
TU1.R19.7: GENERATION, APPLICATION AND EVALUATION OF GF-1 WFV CLOUD DETECTION METHOD BASED CDAG ALGORITHM
Kai Wang, Tingting Chen, Xueting Mi, ShanDong University of Science and Technology, China
TU1.R19.8: AN ALGORITHM TO REMOVE THIN CLOUDS BUT TO PRESERVE GROUND FEATURES IN VISIBLE BANDS
Shuai Shan, University of Electronic Science and Technology of China, China; Yong Wang, East Carolina University, United States
TU1.R19.9: IMPROVEMENT OF A CIRRUS CORRECTION EMPIRICAL METHOD WITH SENTINEL-2 DATA
Sandra Salgado, Laurent Poutier, ONERA, France; Sandrine Mathieu, Thales Alenia Space, France; Xavier Briottet, ONERA, France
TU1.R19.10: Comparison of MODIS cloud mask products with ground-based millimeter-wave radar
Juan Huo, Congzheng Han, Institute of Atmospheric Physics, China
TU1.R19.11: DESIGN AND DEVELOPMENT OF GROUND-BASED MICROWAVE RADIOMETER FOR METEOROLOGICAL AND CLIMATE APPLICATIONS
Jieying He, National Space Science Center, Chinese Academy of Sciences, China; Haonan Chen, NOAA Earth System Research Laboratory, United States; Shengwei Zhang, National Space Science Center, Chinese Academy of Sciences, China
TU1.R19.12: Polarimetric radar measurements and rainfall performance during a severe rainfall event in complex terrain over Eastern China
Yabin Gou, Hangzhou Meteorological Bureau, China; Zhangwei Wang, Zhejiang Meteorological Administration, China; Yunli Hu, Hangzhou Meteorological Bureau, China; Haonan Chen, NOAA Earth System Research Laboratory, United States; Jieying He, National Space Science Center, China