Title :
Extended analysis of SMOS salinity retrieval by using support vector regression (SVR)
Author :
Rains, D. ; Sabia, R. ; Fernandez-Prieto, D. ; Marconcini, M. ; Katagis, T.
Author_Institution :
ESA-ESRIN, Eur. Space Agency, Frascati, Italy
Abstract :
The performances of a novel salinity retrieval strategy by means of Support Vector Regression (SVR) have been studied. The SMOS satellite brightness temperatures measurements and additional auxiliary parameters have been co-located with salinity data collected by Argo buoys, which represented the ground-truth to be matched by the algorithm. Salinity fields estimated by the SVR with a combination of features and at two polarizations are in good agreement with the ground-truth data. A critical additional feature that was studied was the TB/emissivity incidence angle dependency, analyzing the possible performances improvements due to the multi-angular information content. The robustness and versatility of this approach are under further assessment over wider areas and time lags, and in various combinations of SMOS features.
Keywords :
oceanographic techniques; remote sensing; salinity (geophysical); Argo buoys; SMOS salinity retrieval extended analysis; SMOS satellite brightness temperatures measurements; auxiliary parameters; ground-truth data; multiangular information content; salinity data; salinity retrieval strategy; support vector regression; Ocean temperature; Robustness; Sea measurements; Sea surface salinity; Support vector machines; Temperature measurement; Regression; SMOS; Sea Surface Salinity; Sea Surface Temperature; Support Vector Machines;
Conference_Titel :
Geoscience and Remote Sensing Symposium (IGARSS), 2014 IEEE International
Conference_Location :
Quebec City, QC
DOI :
10.1109/IGARSS.2014.6946921
