Add to ORKGThis paper provides comprehensive analysis of the dry snow pack backscattering coefficient dependence on the density change, for various SAR sensor parameters and chosen dry snow pack parameters, characteristic for the region of French Alps. As the result, qualitative conclusions, based on ap-plying fundamental scattering theories (Rayleigh scattering model, Quasi Crystalline Approximation, Integral Equation Model) on the particular distributed target are presented. They represent the ground for semi-empirical models, which may provide a satisfactory link between backscattering co-efficient and snow density (as one of the quantities defining SWE), as well as the guidelines for the further radar acquisi-tions over the Alpine region in France...
International audienceThis paper presents a method to characterize snow cover in mountainous regions...
Abstract—The relationship between snow water equivalence (SWE) and SAR backscattering coefficients a...
This study compares numerical simulations and observations of C-band radar backscatter in a wide reg...
International audienceThis paper provides comprehensive analysis of the dry snow pack backscattering...
International audienceThis paper deals particularly with the sensitivity of the wet snow backscatter...
In this work, X band images acquired by COSMO-SkyMed (CSK) on alpine environment have been analyzed ...
This paper proposes a new method for wet snow detection using multitemporal SAR data. The proposed c...
International audienceThis paper introduces an alternative strategy for wet snow detection using mul...
The main objective of this study is to analyse the signature of snowcovered high alpine terrain for ...
In this paper, two methods are presented in order to discriminate dry snow in Alpine areas. These me...
International audienceThe remote sensing of the Earth's environment has undergone a major developmen...
International audienceThis paper presents a method to characterize snow cover in mountainous regions...
Abstract—The relationship between snow water equivalence (SWE) and SAR backscattering coefficients a...
This study compares numerical simulations and observations of C-band radar backscatter in a wide reg...
International audienceThis paper provides comprehensive analysis of the dry snow pack backscattering...
International audienceThis paper deals particularly with the sensitivity of the wet snow backscatter...
In this work, X band images acquired by COSMO-SkyMed (CSK) on alpine environment have been analyzed ...
This paper proposes a new method for wet snow detection using multitemporal SAR data. The proposed c...
International audienceThis paper introduces an alternative strategy for wet snow detection using mul...
The main objective of this study is to analyse the signature of snowcovered high alpine terrain for ...
In this paper, two methods are presented in order to discriminate dry snow in Alpine areas. These me...
International audienceThe remote sensing of the Earth's environment has undergone a major developmen...
International audienceThis paper presents a method to characterize snow cover in mountainous regions...
Abstract—The relationship between snow water equivalence (SWE) and SAR backscattering coefficients a...
This study compares numerical simulations and observations of C-band radar backscatter in a wide reg...