25 October 2010 Analysis of polarimetric RADARSAT2 images for soil moisture retrieval in an alpine catchment
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Abstract
Soil moisture estimation is one of the most challenging problems in the context of biophysical parameter estimation from remotely sensed data. Typically, microwave signals are used thanks to their well known sensitivity to variations in the water content of soil. However, other target properties such as soil roughness and the presence of vegetation affect the microwave signals, thus increasing the complexity of the estimation problem. The latter problem becomes even more complex when we move on mountain areas, such as the Alps, where the high heterogeneity of the topographic condition further affect the signals acquired by remote sensors. In this paper, we explore the use of polarimetric RADARSAT2 SAR images for the estimation of soil moisture content in an alpine catchment. In greater detail, we first exploit field measurements and ancillary data to carry out an analysis on the sensitivity of the SAR signal to the moisture content of soil and other target properties, such as topography and vegetation/land-cover heterogeneity, that characterize the mountain environment. On the basis of the findings emerged from this analysis, we propose a technique for estimating moisture content of soils in these challenging operative conditions. This technique is based on the Support Vector Regression algorithm and the integration of ancillary data. Preliminary results are discussed both in terms of accuracy over point measurements and effectiveness in handling spatially distributed data.
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L. Pasolli, L. Pasolli, C. Notarnicola, C. Notarnicola, L. Bruzzone, L. Bruzzone, G. Bertoldi, G. Bertoldi, G. Niedrist, G. Niedrist, U. Tappainer, U. Tappainer, M. Zebisch, M. Zebisch, F. Del Frate, F. Del Frate, G. V. Laurin, G. V. Laurin, } "Analysis of polarimetric RADARSAT2 images for soil moisture retrieval in an alpine catchment", Proc. SPIE 7829, SAR Image Analysis, Modeling, and Techniques X, 78290C (25 October 2010); doi: 10.1117/12.866266; https://doi.org/10.1117/12.866266
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