MOP.S: Radar Scatterometer Systems and Techniques

Session Type: Poster
Time: Monday, July 14, 17:20 - 19:00
Location: Poster Area S
Session Chairs: Alessandro Battaglia, University of Leicester and Ad Stoffelen, Koninklijk Nederlands Meteorologisch Instituut (KNMI)
 
MOP.S.133: OCEAN SURFACE CURRENT MEASUREMENT USING PENCIL-BEAM ROTATING SCATTEROMETER
         Qingliu Bao; National Space Science Center, Chinese Academy of Sciences
         Xiaolong Dong; National Space Science Center, Chinese Academy of Sciences
         Di Zhu; National Space Science Center, Chinese Academy of Sciences
 
MOP.S.134: A PRELIMINARY CROSSOVER CALIBRATION RESULT FOR HY-2
         Yalong Liu; Ocean University of China
         Youguang Zhang; National Satellite Ocean Application Service
         Mingsen Lin; National Satellite Ocean Application Service
         Junwu Tang; National Ocean Technological Center
 
MOP.S.135: THE METOP SECOND GENERATION SCATTEROMETER
         Franco Fois; European Space Agency (ESA)
         Chung-Chi Lin; European Space Agency (ESA)
         Marc Loiselet; European Space Agency (ESA)
         Klaus Scipal; European Space Agency (ESA)
         Ad Stoffelen; KNMI - Koninklijk Nederlands Meteorologisch Instituut
         Julian Wilson; Eumetsat
 
MOP.S.136: CALIBRATION/VALIDATION OF SPACEBORNE MICROWAVE SCATTEROMETER ON HY-2A
         Ailing Lv; China Academy of Space Technology Xi'an
         Xiaoning Wang; China Academy of Space Technology Xi'an
         Axin Jin; China Academy of Space Technology Xi'an
         Lixia Liu; China Academy of Space Technology Xi'an
 
MOP.S.137: DECOUPLING OF SEA SURFACE AND RAIN BACKSCATTER FOR SPACEBORNE SCATTEROMETERS
         Di Zhu; Chinese Academy of Sciences
         Xiaolong Dong; Chinese Academy of Sciences
         Lei Zhang; DHF Satellite co., Ltd
         Xingou Xu; Chinese Academy of Sciences
         Jintai Zhu; Chinese Academy of Sciences
         Qian Wang; Chinese Academy of Sciences
         Qingliu Bao; Chinese Academy of Sciences
 
MOP.S.138: DIVIDE AND CONQUER: A FAST MATRIX INVERSE METHOD OF ITERATIVE ADAPTIVE APPROACH FOR REAL BEAM SUPERRESOLUTION
         Yongchao Zhang; University of Electronic Science and Technology of China
         Yin Zhang; University of Electronic Science and Technology of China
         Wenchao Li; University of Electronic Science and Technology of China
         Yulin Huang; University of Electronic Science and Technology of China
         Jianyu Yang; University of Electronic Science and Technology of China