MO4.R15.3

Testing the Consistency of the Boundary Element Method for Computing the Backscattering Properties of Complex Ice Crystals at Multiple Radar Frequencies

Anthony Baran, Met Office, United Kingdom; Andrew Heymsfield, NCAR, United States; Antigoni Kleanthous, University College London, United Kingdom; Christopher Westbrook, University of Reading, United Kingdom; Timo Betcke, David Hewett, University College London, United Kingdom; Paul Barrett, Stuart Fox, Met Office, United Kingdom

Session:
MO4.R15: Modeling in Remote Sensing III Oral

Track:
Community-Contributed Sessions

Location:
Mercury Hall

Presentation Time:
Mon, 8 Jul, 16:48 - 17:02

Session Co-Chairs:
Nazzareno Pierdicca, Sapienza University of Rome and Tianlin Wang, Jet Propulsion Laboratory
Presentation
Discussion
Resources
No resources available.
Session MO4.R15
MO4.R15.1: ANALYTICAL EVALUATION OF THE BASELINE DECORRELATION IN BISTATIC INTERFEROMETRIC SAR SYSTEMS
Gerardo Di Martino, Alessio Di Simone, Università degli Studi di Napoli Federico II - DIETI, Italy; Antonio Iodice, Università degli Studi di Napoli Federico II, Italy; Daniele Riccio, Giuseppe Ruello, Università degli Studi di Napoli Federico II - DIETI, Italy
MO4.R15.2: ELECTROMAGNETIC ANALYSIS AT P-BAND AND L-BAND OF FORESTS: COMBINING VOLUME AND SURFACE SCATTERING
Jongwoo Jeong, Leung Tsang, Haokui Xu, University of Michigan, United States; Xiaolan Xu, Simon Yueh, California Institute of Technology, United States
MO4.R15.3: Testing the Consistency of the Boundary Element Method for Computing the Backscattering Properties of Complex Ice Crystals at Multiple Radar Frequencies
Anthony Baran, Met Office, United Kingdom; Andrew Heymsfield, NCAR, United States; Antigoni Kleanthous, University College London, United Kingdom; Christopher Westbrook, University of Reading, United Kingdom; Timo Betcke, David Hewett, University College London, United Kingdom; Paul Barrett, Stuart Fox, Met Office, United Kingdom
MO4.R15.4: EXPLORING THE IMPACT OF TREE STRUCTURE ON FOREST TRANSMISSIVITY MODELING
Dylan Boyd, NASA Goddard Space Flight Center; University of Maryland, United States; Mehmet Kurum, University of Georgia, United States; Suraj Yadav, Mississippi State University, United States; Ehsanul Hoque, Abesh Ghosh, University of Georgia, United States; Mehedi Farhad, Mississippi State University, United States; Ines Fenni, Jet Propulsion Laboratory, California Institute of Technology, United States; Elodie Macorps, NASA Goddard Space Flight Center; University of Maryland, United States; Batuhan Osmanoglu, NASA Goddard Space Flight Center, United States
MO4.R15.5: Optimal Sensing Principle of Synthetic Aperture Radar Imaging System
Hanyang Xu, Feng Xu, Yaqiu Jin, Fudan University, China
MO4.R15.6: AN IMPROVED CANOPY BRIGHTNESS TEMPERATURE MODEL BASED ON SPECTRAL INVARIANTS
Qunchao He, Institute of Remote Sensing and Geographic Information System, School of Earth and Space Sciences, Peking University, Beijing 100871, China, China; Biao Cao, Innovation Research Center of Satellite Application, Faculty of Geographical Science, Beijing Normal University, Beijing 100875, China; Siqi Yang, Naijie Peng, Dechao Zhai, Wenjie Fan, Institute of Remote Sensing and Geographic Information System, School of Earth and Space Sciences, Peking University, Beijing 100871, China, China
MO4.R15.7: AN EXTENDED REPRESENTATION FOR GENERALIZED LIKELIHOOD RATIO TEST DETECTOR IN GAUSSIAN-DISTRIBUTED SIGNALS
Diego Medeiros, Federal Institute of Santa Catarina, Brazil; Rômulo da Costa, IACIT Technological Solutions, Brazil; Dimas Alves, Renato Machado, Aeronautics Institute of Technology, Brazil
Resources
No resources available.