Machine Learning-Aided Sea Ice Monitoring Using Feature Sequences Extracted 
from Spaceborne GNSS-Reflectometry Data

Zhu, Yongchao; Tao, Tingye; Yu, Kegen; Qu, Xiaochuan; Li, Shuiping; Wickert, J.; Semmling, Maximilian

doi:10.3390/rs12223751

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Machine Learning-Aided Sea Ice Monitoring Using Feature Sequences Extracted from Spaceborne GNSS-Reflectometry Data

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Zhu, Yongchao
1.1 Space Geodetic Techniques, 1.0 Geodesy, Departments, GFZ Publication Database, Deutsches GeoForschungsZentrum;

Tao, Tingye
External Organizations;

Yu, Kegen
External Organizations;

Qu, Xiaochuan
External Organizations;

Li, Shuiping
External Organizations;

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Wickert, J.
1.1 Space Geodetic Techniques, 1.0 Geodesy, Departments, GFZ Publication Database, Deutsches GeoForschungsZentrum;

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Semmling, Maximilian
1.1 Space Geodetic Techniques, 1.0 Geodesy, Departments, GFZ Publication Database, Deutsches GeoForschungsZentrum;

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Zitation

Zhu, Y., Tao, T., Yu, K., Qu, X., Li, S., Wickert, J., Semmling, M. (2020): Machine Learning-Aided Sea Ice Monitoring Using Feature Sequences Extracted from Spaceborne GNSS-Reflectometry Data. - Remote Sensing, 12, 22, 3751.
https://doi.org/10.3390/rs12223751

Zitierlink: https://gfzpublic.gfz-potsdam.de/pubman/item/item_5005128

Zusammenfassung

Two effective machine learning-aided sea ice monitoring methods are investigated using 42 months of spaceborne Global Navigation Satellite System-Reflectometry (GNSS-R) data collected by the TechDemoSat-1 (TDS-1). The two-dimensional delay waveforms with different Doppler spread characteristics are applied to extract six features, which are combined to monitor sea ice using the decision tree (DT) and random forest (RF) algorithms. Firstly, the feature sequences are used as input variables and sea ice concentration (SIC) data from the Advanced Microwave Space Radiometer-2 (AMSR-2) are applied as targeted output to train the sea ice monitoring model. Hereafter, the performance of the proposed method is evaluated through comparing with the sea ice edge (SIE) data from the Special Sensor Microwave Imager Sounder (SSMIS) data. The DT- and RF-based methods achieve an overall accuracy of 97.51% and 98.03%, respectively, in the Arctic region and 95.46% and 95.96%, respectively, in the Antarctic region. The DT- and RF-based methods achieve similar accuracies, while the Kappa coefficient of RF-based approach is slightly larger than that of the DT-based approach, which indicates that the RF-based method outperforms the DT-based method. The results show the potential of monitoring sea ice using machine learning-aided GNSS-R approaches.