F5*.2
Resonant-Perturbation Method Applied to UHF Cryogenic Dielectric Measurements of Saline Ice
Jake Sahli, Albin Gasiewski, University of Colorado Boulder, United States; William Stone, Vickie Siegel, Stone Aerospace, Inc., United States
Session:
F5*: Microwave Remote Sensing of Vegetation and Ocean Salinity in Honor of Roger H Lang Lecture
Track:
Special Sessions
Location:
Room 245
Presentation Time:
Fri, 10 Jan, 08:40 - 09:00 MT (UTC -7)
Session Chair:
Mehmet Kurum, University of Georgia
Presentation
Discussion
Resources
No resources available.
Session F5*
F5*.1: The Continuing Contribution of Roger Lang to the Measurement of the Dielectric Constant of Sea Water
David Le Vine, Goddard Space Flight Center, United States; Roger Lang, Ming Li, The George Washington University, United States; Emmanuel Dinnat, Goddard Space Flight Center, United States; Yiwen Zhou, Swiss Federal Institute for Forest, Snow and Landscape Research WSL, Switzerland
F5*.2: Resonant-Perturbation Method Applied to UHF Cryogenic Dielectric Measurements of Saline Ice
Jake Sahli, Albin Gasiewski, University of Colorado Boulder, United States; William Stone, Vickie Siegel, Stone Aerospace, Inc., United States
F5*.3: Ocean Salinity Measurements with L-band Passive Airborne and Ground Based Instruments
Mehmet Ogut, Sidharth Misra, Ian Fenty, Severine Fournier, Simik Ghookasian, Jet Propulsion Laboratory, United States; Doug Vandemark, University of New Hampshire, United States
F5*.4: Development of the SESAR-LITE P-band Synthetic Aperture Radar
Rafael Rincon, NASA/GSFC, United States
F5*.5: Coherence Modeling of Land Cover Observations from Repeat Pass Interferometric Synthetic Aperture Radar
Simon Yueh, Xiaolan Xu, Tianlin Wang, Mario Chaubell, California Institute of Technology, United States
F5*.6: Bistatic GO Solution to the Mean RCS of an Object Above a Rough Surface: 2D TE Case
Joseph Gedney, Joel Johnson, Robert Burkholder, The Ohio State University, United States
F5*.7: GNSS-T Forest Transmissivity Simulations based on LiDAR-derived Tree Structure
Mohammad Ehsanul Hoque, Mehmet Kurum, University of Georgia, United States
F5*.8: Modelling the effective vegetation optical depth and scattering albedo for coniferous forests from P- to Ka- band
Yiwen Zhou, Mike Schwank, Swiss Federal Research Institute WSL, Switzerland; Mehmet Kurum, University of Georgia, United States; Roger Lang, The George Washington University, United States
F5*.9: Coherent backscatter from a vegetation canopy – Model vs Experiment
Avinash Sharma, The Johns Hopkins University Applied Physics Laboratory, United States
F5*.10: Interpolating SMAP Soil Moisture to 3 km using CYGNSS and Spire Reflectivity Observations: Regional Case Study
Ming Li, Jiahua Zhang, University Corporation for Atmospheric Research, United States; Liza Wernicke, University of Colorado Boulder, United States; John Braun, Jan Weiss, University Corporation for Atmospheric Research, United States
Contacts