From post

Please choose a person to relate this publication to

To differ between persons with the same name, the academic degree and the title of an important publication will be displayed.

 

Другие публикации лиц с тем же именем

Multiscale Comparison of Eight Satellite Soil Moisture Data Sets Over Two Calibration Sites., , , и . IGARSS, стр. 5529-5532. IEEE, (2018)Parameter Optimization of a Discrete Scattering Model by Integration of Global Sensitivity Analysis Using SMAP Active and Passive Observations., , , , , , , , и . IEEE Trans. Geosci. Remote. Sens., 57 (2): 1084-1099 (2019)Evaluation of Gaofen-3 C-Band SAR for Soil Moisture Retrieval Using Different Polarimetric Decomposition Models., , , , и . IEEE J. Sel. Top. Appl. Earth Obs. Remote. Sens., (2021)Constraining the Surface Slip Distribution Along the Sertengshan Piedmont Fault in Northern China., , и . IGARSS, стр. 5993-5996. IEEE, (2022)A New Multi-Band Temperature Retrieval Model from FY-3d Brightness Temperatures., , , , и . IGARSS, стр. 3299-3302. IEEE, (2023)Soil Moisture Mapping from Satellites: An Intercomparison of SMAP, SMOS, FY3B, AMSR2, and ESA CCI over Two Dense Network Regions at Different Spatial Scales., , , , , , , и . Remote. Sens., 10 (1): 33 (2018)Modeling the topography of fault zone based on structure from motion photogrammetry., , , и . IGARSS, стр. 6251-6254. IEEE, (2017)Arctic Sea Ice Thickness Estimation from Icesat-2 Using Different Parameter Schemes., , и . IGARSS, стр. 5652-5655. IEEE, (2021)Spatiotemporal Patterns and Influencing Factors Of Soil Moisture At A Global Scale., , , , и . IGARSS, стр. 3174-3177. IEEE, (2023)Covariation of SMAP active and passive measurements with respect to vegetation and surface roughness., , , , , , , и . IGARSS, стр. 4166-4169. IEEE, (2017)