Novel Soil Moisture Retrieval Algorithm for FY-3E GNOS-R Leveraging Multi-Angle Observations
Novel Soil Moisture Retrieval Algorithm for FY-3E GNOS-R Leveraging Multi-Angle Observations
Objective: Develop effective FY-3E GNOS-R algorithm for global soil moisture retrieval.Methods:1.Incorporate first-order vegetation model, consider density, and volume scattering.2.Use multi-angle GNOS-R observations, combine with SMAP data for optimization.3.Tailor algorithm for diverse surface conditions; parameterize surface roughness based on angle.Results: Achieve enhanced retrieval accuracy, RMSE: 0.0235, 0.0264, 0.0191 (g/cm3) for bare, low vegetation, and dense vegetation areas.Limitations: Limited to one month of data; further testing required for broader applicability.Conclusions: GNOS-R proves a robust tool, surpassing previous techniques for global soil moisture estimation.
Objective: Develop effective FY-3E GNOS-R algorithm for global soil moisture retrieval.Methods:1.Incorporate first-order vegetation model, consider density, and volume scattering.2.Use multi-angle GNOS-R observations, combine with SMAP data for optimization.3.Tailor algorithm for diverse surface conditions; parameterize surface roughness based on angle.Results: Achieve enhanced retrieval accuracy, RMSE: 0.0235, 0.0264, 0.0191 (g/cm3) for bare, low vegetation, and dense vegetation areas.Limitations: Limited to one month of data; further testing required for broader applicability.Conclusions: GNOS-R proves a robust tool, surpassing previous techniques for global soil moisture estimation.
Xuerui Wu、Junming Xia、Weihua Bai、Yueqiang Sun
地球物理学环境科学理论环境科学技术现状
GNSS-ReflectometryGNOS-Rsoil moistureSMAP
GNSS-ReflectometryGNOS-Rsoil moistureSMAP
Xuerui Wu,Junming Xia,Weihua Bai,Yueqiang Sun.Novel Soil Moisture Retrieval Algorithm for FY-3E GNOS-R Leveraging Multi-Angle Observations[EB/OL].(2024-01-22)[2025-08-02].https://chinaxiv.org/abs/202401.00285.点此复制
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