DocumentCode
2154281
Title
Modeling passive and active microwave remote sensing of snow using DMRT theory with rough surface boundary conditions
Author
Tan, Yunhua ; Li, Zhongxin ; Tsang, Leung ; Chang, Alfred T C ; Li, Qin
Author_Institution
City Univ. of Hong Kong, China
Volume
3
fYear
2004
fDate
20-24 Sept. 2004
Firstpage
1842
Abstract
The microwave signatures of a layer of dry snow overlying ground with a rough surface are computed. We use dense medium radiative transfer (DMRT) theory with Quasicrystalline approximation (QCA) for densely distributed sticky moderate size particles to calculate the volume scattering in snow. The rough surface scattering and emission are modeled by the Numerical Maxwell Model of 3D simulations (NMM3D), which is accelerated by fast computation method known as with Sparse-Matrix Canonical Grid method (SMCG). The bistatic scattering coefficients of rough surfaces are used as the boundary conditions for the DMRT. Both active and passive cases are studied.
Keywords
geophysics computing; hydrological techniques; microwave measurement; radiative transfer; snow; sparse matrices; terrain mapping; DMRT; DMRT theory; NMM3D; Numerical Maxwell Model of 3D simulations; QCA; Quasicrystalline approximation; SMCG; Sparse-Matrix Canonical Grid method; active microwave remote sensing; bistatic scattering coefficients; dense distributed sticky moderate size particles; dense medium radiative transfer; fast computation method; microwave signature; passive microwave remote sensing; rough surface boundary conditions; rough surface emission; rough surface scattering; snow; volume scattering; Boundary conditions; Computational modeling; Microwave theory and techniques; Numerical models; Particle scattering; Quantum cellular automata; Remote sensing; Rough surfaces; Snow; Surface roughness;
fLanguage
English
Publisher
ieee
Conference_Titel
Geoscience and Remote Sensing Symposium, 2004. IGARSS '04. Proceedings. 2004 IEEE International
Print_ISBN
0-7803-8742-2
Type
conf
DOI
10.1109/IGARSS.2004.1370696
Filename
1370696
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