Title :
Parametrization of an anisotropic ocean surface emissivity model based on WindSat polarimetric brightness observations
Author :
Smith, Dean F. ; Gasiewski, Albin J. ; Sandeep, S. ; Weber, B.L.
Author_Institution :
Dept. of ECEE, Univ. of Colorado, Boulder, CO, USA
Abstract :
The goal of this research has been to develop a standardized fast full-Stokes ocean surface emissivity model with Jacobian for a wind-driven ocean surface applicable at arbitrary microwave frequencies, polarizations, and incidence angles. The model is based on the Ohio State University (OSU) two-scale code for surface emission developed by Johnson (2006, IEEE TGRS, 44, 560) as presented in our 2012 URSI talk. A total of five physical tuning parameters for the model were identified, including the spectral strength and the hydrodynamic modulation factor. The short wave part of the sea surface spectrum is also allowed to have an arbitrary ratio relative to the long wave part. The foam fraction is multiplied by a variable correction factor, and also modulated to allow an anisotropic foam fraction with more foam on the leeward side of a wave.
Keywords :
foams; hydrodynamics; ocean waves; oceanographic techniques; wind; Jacobian; Ohio State University two-scale code; URSI talk; WindSat polarimetric brightness observations; anisotropic foam fraction; anisotropic ocean surface emissivity model; arbitrary microwave frequencies; arbitrary ratio; hydrodynamic modulation factor; incidence angles; long wave part; physical tuning parameters; sea surface spectrum; short wave part; spectral strength; standardized fast full-Stokes ocean surface emissivity model; surface emission; variable correction factor; wind-driven ocean surface; Brightness; Educational institutions; Mathematical model; Sea surface; Surface waves; Tuning;
Conference_Titel :
Radio Science Meeting (USNC-URSI NRSM), 2013 US National Committee of URSI National
Conference_Location :
Boulder, CO
Print_ISBN :
978-1-4673-4776-1
DOI :
10.1109/USNC-URSI-NRSM.2013.6525012
