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A New Multi-Band Temperature Retrieval Model from FY-3d Brightness Temperatures.

, , , , и . IGARSS, стр. 3299-3302. IEEE, (2023)

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Hongguang Bi

Bi Wu

Bi Yu

Shasha Bi

Suzhi Bi

 

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Soil moisture estimation using an improved particle filter assimilation algorithm., , и . IGARSS, стр. 3770-3773. IEEE, (2014)Vertical Displacement Distribution of the South Hell Shan Fault at Northeastern Tibetan Plateau Derived from High-Resolution Topographic Data., , и . IGARSS, стр. 3051-3054. IEEE, (2018)Land surface temperature estimates in the Tibetan Plateau from passive microwave observations., , , , и . IGARSS, стр. 2558-2561. IEEE, (2014)Assessment of the newest ECV soil moisture product over the Tibetan plateau using ground-based observations., , , и . IGARSS, стр. 665-668. IEEE, (2015)Validation of SMAP Soil Moisture analysis product using in-situ measurements over the Little Washita Watershed., , , и . IGARSS, стр. 3086-3089. IEEE, (2016)Modeling and Analysis of Chaos and Bifurcations for the Attitude System of a Quadrotor Unmanned Aerial Vehicle., , и . Complex., (2019)Global-Scale Assessment of Multiple Recently Developed/Reprocessed Remotely Sensed Soil Moisture Datasets., , , , , , , и . IEEE Trans. Geosci. Remote. Sens., (2024)On the Relationship Between Radar Backscatter and Radiometer Brightness Temperature From SMAP., , , , , и . IEEE Trans. Geosci. Remote. Sens., (2022)Multiscale Comparison of Eight Satellite Soil Moisture Data Sets Over Two Calibration Sites., , , и . IGARSS, стр. 5529-5532. IEEE, (2018)Constraining the Surface Slip Distribution Along the Sertengshan Piedmont Fault in Northern China., , и . IGARSS, стр. 5993-5996. IEEE, (2022)