Determination of Snow Water Equivalent for Dry Snowpacks Using the Multipath Propagation of Ground-Based Radars
Por:
Espín-López, PF, Pasian, M
Publicada:
1 feb 2021
Resumen:
Determining snow water equivalent (SWE) in a fast and nondestructive way is a key request for many hydrologists and snow scientists. To this aim, microwave ground-based radars represent a viable solution, but often the simultaneous measurement of both the snowpack depth and density (the key ingredients for the SWE) is very complex, inaccurate, or requires difficult procedures and equipment. This letter presents a novel radar technique for self-standing calculation of the SWE that can be applied to bi-static radars. This technique, based on the multipath propagation of the radar signal into the snowpack, only requires a radar with two fixed antennas, without any other device, movement of the antennas, or a priori empirical assumptions. This makes such a technique particularly suitable for light and portable radars for rapidly probing large areas, providing, for example, an innovative validation means for satellite-based microwave remote sensing methods. The proposed technique was demonstrated using a stepped frequency modulated continuous wave (FMCW) radar in field conditions for dry snow, delivering results for snow depth and SWE, benchmarked by manual analyses of the snowpack, with a mean absolute error better than 5 cm.
Filiaciones:
Espín-López, PF:
Univ Pavia, Dept Elect Comp & Biomed Engn, I-27100 Pavia, Italy
Ctr Tecnol Telecomunicac Catalunya CTTC, Geomat Div, Barcelona 08860, Spain
Pasian, M:
Univ Pavia, Dept Elect Comp & Biomed Engn, I-27100 Pavia, Italy
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