Title :
A Simulation Study of Compact Polarimetry for Radar Retrieval of Soil Moisture
Author :
Ouellette, Jeffrey D. ; Johnson, Joel T. ; Kim, Sungho ; van Zyl, J.J. ; Moghaddam, Mahta ; Spencer, Michael W. ; Tsang, Leung ; Entekhabi, Dara
Author_Institution :
Ohio State Univ., Columbus, OH, USA
Abstract :
A compact polarimetric (CP) radar system requires fewer measurements than a fully polarimetric (FP) system, thus allowing added flexibility in radar system design. Previous studies have shown the potential of using compact polarimetry for radar remote sensing of soil moisture. This paper extends previous studies by considering a time series data cube retrieval algorithm and measurements in the presence of vegetation. Vegetation information is assumed to be provided by an ancillary data source in the retrieval process. The performance of an algorithm for reconstructing FP information from CP measurements of vegetated soil surfaces is also examined. The results of the study show that only a modest degradation in soil moisture retrieval performance occurs when compact-pol measurements are used in place of full-pol data.
Keywords :
moisture; radar polarimetry; remote sensing by radar; soil; time series; vegetation; ancillary data source; compact polarimetric measurements; compact polarimetric radar system; full-pol data; fully polarimetric information; fully polarimetric system; radar remote sensing; radar system design; soil moisture retrieval performance; time series data cube retrieval algorithm; vegetated soil surfaces; vegetation information; Geophysical measurements; Noise; Scattering; Soil measurements; Soil moisture; Time measurement; Time series analysis; Compact polarimetry; data cube; retrieval algorithm; soil moisture; time series;
Journal_Title :
Geoscience and Remote Sensing, IEEE Transactions on
DOI :
10.1109/TGRS.2013.2294133
