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14 December 2006 Snow wetness estimation in Himalayan snow covered regions using ENVISAT-ASAR data
Gulab Singh, Vijay Kumar, Kishor Mohite, G. Venkatraman, Y. S. Rao, . Snehmani
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Proceedings Volume 6410, Microwave Remote Sensing of the Atmosphere and Environment V; 641008 (2006) https://doi.org/10.1117/12.693690
Event: SPIE Asia-Pacific Remote Sensing, 2006, Goa, India
Abstract
The snow wetness in the Himalayan snow covered region is an important parameter, for the snow melt runoff modeling and forecasting. The main objective of the study is to estimate snow wetness in parts of Himalayan snow covered regions. Snow surface backscattering can expressed as function of permittivity of snow. Reflectivity at the air snow interface increases greatly with wetness and volume scattering decreases abruptly. ENIVISAT-ASAR dual polarization (HH and VV) data have been used to investigate permittivity and snow wetness in sub Himalayan region. Raw data have been processed for backscattering coefficient (BSC) image generation for HH and VV polarization. BSC image is georeferenced and topographically corrected using high precision digital elevation model (DEM). The BSC images are despeckled using adaptive filter technique. For this study Physical optics Model (POM) for surface scattering based inversion model has been used. Physical Optics Model based inversion model gives the permittivity which can be further related for estimating snow wetness. A comparison was done between inversion model estimated snow wetness and field values of snow wetness in the study region. Comparison with field measurement showed that the correlation coefficient for snow wetness estimated from ASAR data was 0.8 at 95% confidence interval. The snow wetness ranges from 0-15% by volume.
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Gulab Singh, Vijay Kumar, Kishor Mohite, G. Venkatraman, Y. S. Rao, and . Snehmani "Snow wetness estimation in Himalayan snow covered regions using ENVISAT-ASAR data", Proc. SPIE 6410, Microwave Remote Sensing of the Atmosphere and Environment V, 641008 (14 December 2006); https://doi.org/10.1117/12.693690
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KEYWORDS
Backscatter
Dielectrics
Dielectric polarization
Radar
Sensors
Image processing
Scattering
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