Title :
An Improved C-Band Ocean Surface Emissivity Model at Hurricane-Force Wind Speeds Over a Wide Range of Earth Incidence Angles
Author :
El-Nimri, Salem Fawwaz ; Jones, W. Linwood ; Uhlhorn, Eric ; Ruf, Christopher ; Johnson, James ; Black, Peter
Author_Institution :
Central Florida Remote Sensing Lab., Univ. of Central Florida, Orlando, FL, USA
Abstract :
An improved microwave radiometric ocean surface emissivity model has been developed to support forward radiative transfer modeling of brightness temperature and geophysical retrieval algorithms for the next-generation airborne Hurricane Imaging Radiometer instrument. This physically based C-band emissivity model extends current model capabilities to hurricane-force wind speeds over a wide range of incidence angles. It was primarily developed using brightness temperature observations during hurricanes with coincident high-quality surface-truth wind speeds, which were obtained using the airborne Stepped-Frequency Microwave Radiometer. Also, other ocean emissivity models available through the published literature and the spaceborne WindSat radiometer measurements were used.
Keywords :
atmospheric techniques; emissivity; microwave measurement; oceanography; radiative transfer; radiometry; remote sensing; storms; wind; C-band ocean surface emissivity model; Earth incidence angles; airborne Hurricane Imaging Radiometer; airborne stepped-frequency microwave radiometer; brightness temperature; forward radiative transfer modeling; geophysical retrieval algorithms; hurricane-force wind speeds; microwave radiometry; spaceborne WindSat radiometer; surface-truth wind speed; Brightness temperature; Earth; Hurricanes; Image retrieval; Instruments; Microwave imaging; Microwave radiometry; Ocean temperature; Sea surface; Wind speed; Hurricane Imaging Radiometer (HIRAD); Stepped-Frequency Microwave Radiometer (SFMR); hurricane winds; ocean surface emissivity; radiometry;
Journal_Title :
Geoscience and Remote Sensing Letters, IEEE
DOI :
10.1109/LGRS.2010.2043814
