Title :
Calibration of passive microwave polarimeters that use hybrid coupler-based correlators
Author :
Piepmeier, Jeffrey R.
Author_Institution :
NASA Goddard Space Flight Center, Greenbelt, MD, USA
Abstract :
Four calibration algorithms are studied for microwave polarimeters that use hybrid coupler-based correlators: (1) conventional two-look of hot and cold sources; (2) three looks of hot and cold source combinations; (3) two-look with correlated source; and (4) four-look combining methods (2) and (3). The systematic errors are found to depend on the polarimeter component parameters and accuracy of calibration noise temperatures. A case study radiometer in four different remote sensing scenarios was considered in light of these results. Applications for ocean surface salinity, ocean surface winds, and soil moisture were found to be sensitive to different systematic errors. Finally, a standard uncertainty analysis was performed on the four-look calibration algorithm, which was found to be most sensitive to the correlated calibration source.
Keywords :
calibration; correlators; geophysical techniques; radar polarimetry; radiometry; remote sensing by radar; calibration algorithms; calibration noise temperatures; cold sources; correlated source; four-look combining methods; hot sources; hybrid coupler-based correlators; microwave radiometry; ocean surface salinity; ocean surface winds; passive microwave polarimeters; polarimeter component parameters; polarimetry; polarization; remote sensing; soil moisture; systematic errors; three-look calibration; two-look calibration; uncertainty analysis; Calibration; Correlators; Microwave radiometry; Microwave theory and techniques; Ocean temperature; Remote sensing; Sea surface; Soil moisture; Temperature dependence; Temperature sensors;
Journal_Title :
Geoscience and Remote Sensing, IEEE Transactions on
DOI :
10.1109/TGRS.2003.817792
