Identification and Correction of Radio Frequency Interference of Fengyun-3 Microwave Radiation Imager Using a Machine-Learning Method

Identification and Correction of Radio Frequency Interference of Fengyun-3 Microwave Radiation Imager Using a Machine-Learning Method

Radio frequency signals can interfere with the radiation emanated from the earth atmospheres and affect the quality of the data received from spaceborne microwave instruments. For microwave radiation imager (MWRI) carried on China's Fengyun-3 series satellites, the data contaminated by radio fr...

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Veröffentlicht in:IEEE transactions on geoscience and remote sensing 2023-01, Vol.61, p.1-1
Hauptverfasser: Han, Yang, Hu, Hao, Shi, Yining, Yang, Jun
Format: Artikel
Sprache:eng
Schlagworte:
Brightness temperature
Instruments
Learning algorithms
Machine learning
Methods
Microwave FET integrated circuits
Microwave imaging
Microwave integrated circuits
Microwave radiation
Microwave radiation imager
Microwave radiometry
Microwave theory and techniques
Microwaves
Ocean temperature
Oceans
Radio
Radio frequency interference
Radio signals
Sea surface
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Zusammenfassung:Radio frequency signals can interfere with the radiation emanated from the earth atmospheres and affect the quality of the data received from spaceborne microwave instruments. For microwave radiation imager (MWRI) carried on China's Fengyun-3 series satellites, the data contaminated by radio frequency interference (RFI) are usually identified and labeled as poor quality. In this study, using the high correlation between the observed brightness temperatures (TB) of MWRI channels, an RFI identification and correction method is developed through machine learning techniques. Compared with traditional methods, the new method can simultaneously identify and correct RFI affected data. Since it is trained with global MWRI data, the method works well for both land and oceans. Our analysis show that the MWRI data affected by RFI can be corrected to the quality level close to RFI-free regions.
ISSN:0196-2892
1558-0644
DOI:10.1109/TGRS.2023.3268678