Modeling of electromagnetic wave scattering from time-varying snowcover

Modeling of electromagnetic wave scattering from time-varying snowcover

A study of the effects of time-varying snowcovers on the radar backscatter signatures is presented. To this objective, a snow physics model, known as SNTHERM, is applied to enable the simulation of the dynamical behavior of snowpacks. The SNTHERM model can provide thermal and physical properties suc...

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Bibliographic Details
Published in:IGARSS '96. 1996 International Geoscience and Remote Sensing Symposium Vol. 1; pp. 757 - 759 vol.1
Main Authors: Ding, K.H., Yang, Y.E., Shih, S.E., Kong, J.A., Davis, R.E.
Format: Conference Proceeding
Language:English
Published: IEEE 1996
Subjects:
Backscatter
Electromagnetic modeling
Electromagnetic scattering
Millimeter wave measurements
Millimeter wave radar
Physics
Predictive models
Snow
Temperature
Water
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Summary:A study of the effects of time-varying snowcovers on the radar backscatter signatures is presented. To this objective, a snow physics model, known as SNTHERM, is applied to enable the simulation of the dynamical behavior of snowpacks. The SNTHERM model can provide thermal and physical properties such as the temperature profile, liquid water content, and the layering structure which affect the electromagnetic properties of snowpacks. To calculate the backscattering coefficients from snowcovers, the authors employ the dense medium radiative transfer (DMRT) theory with a clustered snow grain microstructure. This coupled model is then used to predict the influence of environmental variation on the millimeter wave radar response, and compare simulation results with snow backscatter measurements. Good agreement is obtained between model and measured data in both timing and magnitude.
ISBN:9780780330689
0780330684
DOI:10.1109/IGARSS.1996.516465