Journal
REMOTE SENSING
Volume 13, Issue 4, Pages -Publisher
MDPI
DOI: 10.3390/rs13040616
Keywords
snow; snow water equivalent (SWE); stepped-frequency continuous wave radar (SFCW); software defined radio (SDR); snowpack multilayer reflectance
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Funding
- DGA-FSE [T20_17R]
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This study presented a radar-based method for determining SWE in snowpack, along with proposing an approximate method to calculate SWE. The feasibility of the approximate method was confirmed through comparison with results from a cosmic-ray neutron SWE gauge in the Spanish Pyrenees. Additionally, the feasibility of an auxiliary snow height measurement sensor based on FMCW radar was demonstrated.
Snow makes a great contribution to the hydrological cycle in cold regions. The parameter to characterize available the water from the snow cover is the well-known snow water equivalent (SWE). This paper presents a near-surface-based radar for determining the SWE from the measured complex spectral reflectance of the snowpack. The method is based in a stepped-frequency continuous wave radar (SFCW), implemented in a coherent software defined radio (SDR), in the range from 150 MHz to 6 GHz. An electromagnetic model to solve the electromagnetic reflectance of a snowpack, including the frequency and wetness dependence of the complex relative dielectric permittivity of snow layers, is shown. Using the previous model, an approximated method to calculate the SWE is proposed. The results are presented and compared with those provided by a cosmic-ray neutron SWE gauge over the 2019-2020 winter in the experimental AEMet Formigal-Sarrios test site. This experimental field is located in the Spanish Pyrenees at an elevation of 1800 m a.s.l. The results suggest the viability of the approximate method. Finally, the feasibility of an auxiliary snow height measurement sensor based on a 120 GHz frequency modulated continuous wave (FMCW) radar sensor, is shown.
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