2008 IEEE International Geoscience & Remote Sensing Symposium
July 6-11, 2008 | Boston, Massachusetts, U.S.A.

Login Paper Search My Schedule Paper Index Help

My IGARSS 2008 Schedule

Note: Your custom schedule will not be saved unless you create a new account or login to an existing account.
  1. Create a login based on your email (takes less than one minute)
  2. Perform 'Paper Search'
  3. Select papers that you desire to save in your personalized schedule
  4. Click on 'My Schedule' to see the current list of selected papers
  5. Click on 'Printable Version' to create a separate window suitable for printing (the header and menu will appear, but will not actually print)

Clicking on the Add button next to a paper title will add that paper to your custom schedule.
Clicking on the Remove button next to a paper will remove that paper from your custom schedule.

MOP.C: Ocean Wind Measurements

Session Type: Poster
Time: Monday, July 7, 17:00 - 18:30
Location: Poster Area C
Co-Chairs: Robert Contreras, University of Massachusetts and Evert Attema, European Space Agency
 
  MOP.C.1: VALIDATION OF QSCAT-1 GEOPHYSICAL MODEL FUNCTION USING SEAWINDS LEVEL 2 AND BUOY DATA
         Xuetong Xie; National Universtiy of Defense Technology
         Qiming Zeng; Peking University
         Weidong Hu; National University of Defense Technology
         Wenxian Yu; National University of Defense Technology
         Kehai Chen; Chinese Academy of Sciences
         Yu Fang; Peking University
 
  MOP.C.2: OPERATIONAL TECHNIQUE IN TYPHOON WIND RADII USING SATELLITE MICROWAVE REMOTE SENSOR DATA
         Jun Park; Korea Meteorological Administration
         Jae-Young Byon; Korea Meteorological Administration
         Eunha Sohn; Korea Meteorological Administration
         Yoonjae Kim; Korea Meteorological Administration
 
  MOP.C.3: A SPACEBORNE RADAR FOR DIRECTIONAL WAVE SPECTRUM ESTIMATION: FIRST PERFORMANCE SIMULATIONS
         Céline Tison; CNES
         Danièle Hauser; CNRS - CETP
         Guy Carayon; CNES
         Juliette Lambin; CNES
         Patrick Castillan; CNES
         Jean-Claude Souyris; CNES
 
  MOP.C.4: EFFECTIVENESS OF QUIKSCAT'S ULTRA-HIGH RESOLUTION IMAGES IN DETERMINING TROPICAL CYCLONE EYE LOCATION
         Faozi Said; Brigham Young University
         David G. Long; Brigham Young University
 
  MOP.C.5: SYSTEM DESIGN AND PERFORMANCE SIMULATION OF A SPACEBORNE KU-BAND ROTATION FAN-BEAM SCATTEROMETER
         Xiaolong Dong; Center for Space Science and Applied Research, CAS
         Wenming Lin; Center for Space Science and Applied Research, CAS
 
  MOP.C.6: NEURAL NETWORK RETRIEVAL OF SEA SURFACE WIND SPEED FROM ADVANCED MICROWAVE SCANNING RADIOMETER-E DATA
         Biao Zhang; Institute of Oceanology, Chinese Academy of Sciences
         Yijun He; Institute of Oceanology, Chinese Academy of Sciences
         Lijing Wang; Institute of Oceanology, Chinese Academy of Sciences
 
  MOP.C.7: HIGH RESOLUTION WIND VECTOR RETRIEVALS IN TROPICAL CYCLONES USING WINDSAT
         Ian Adams; Naval Research Laboratory
         Michael H. Bettenhausen; Naval Research Laboratory
         Peter Gaiser; Naval Research Laboratory
 
  MOP.C.8: PERFORMANCE SIMULATIONS FOR A SYNTHETIC APERTURE RADIOMETER MEASURING PEAK SURFACE WIND SPEED IN HURRICANES
         Ruba Amarin; University of Central Florida
         Boon Lim; University of Michigan
         James Johnson; University of Central Florida
         W. Linwood Jones; University of Central Florida
         Christopher Ruf; University of Michigan
 
  MOP.C.9: DEPENDENCY OF NRCS OF OCEAN SURFACE ON WIND DIRECTION USING AN AIRBORNE DUAL-FREQUENCY POLARIMETRIC SAR OBSERVATION
         Akitsugu Nadai; National Institute of Information and Communications Technology
         Toshihiko Umehara; National Institute of Information and Communications Technology
         Takeshi Matsuoka; National Institute of Information and Communications Technology
         Tatsuharu Kobayashi; National Institute of Information and Communications Technology
         Seiho Uratsuka; National Institute of Information and Communications Technology
 
  MOP.C.10: AN ANISOTROPIC OCEAN SURFACE EMISSIVITY MODEL BASED ON WINDSAT POLARIMETRIC BRIGHTNESS OBSERVATIONS
         Dean Smith; University of Colorado at Boulder
         Bob Weber; University of Colorado at Boulder
         Albin Gasiewski; University of Colorado at Boulder