Litcius/Paper detail

Baltic Sea Ice Concentration Estimation From C-Band Dual-Polarized SAR Imagery by Image Segmentation and Convolutional Neural Networks

Juha Karvonen

2021IEEE Transactions on Geoscience and Remote Sensing27 citationsDOIOpen Access PDF

Abstract

In this study application of convolutional neural networks (CNNs) preceded by synthetic aperture radar (SAR), image segmentation for sea ice concentration (SIC) estimation over the Baltic Sea from dual-polarized C-band SAR imagery is studied. Three algorithm variants were studied and trained using FMI ice chart SIC or a synthetic SIC dataset with different SIC values generated by combining pure open water and sea ice blocks by applying binary masks. The first two algorithm variants were trained using only open water and fully ice-covered patches, based on the FMI ice charts, and they had a similar CNN structure. These two algorithm variants differ only in deriving the segmentwise SIC from the CNN output. In the third algorithm, variant synthetic SIC data derived as a mixture of open water and fully ice-covered ice patches according to the ice charts were used in training. The estimation results were evaluated with respect to the FMI ice chart SIC for an independent test dataset. The results were very encouraging for operational purposes and significantly better than for our earlier SAR-based SIC estimation algorithms. The algorithm version trained with synthetic SIC data clearly outperformed the two other algorithm versions and our earlier SIC estimation results based on dual-polarized SAR, using independent FMI ice chart SIC as a reference.

Topics & Concepts

Synthetic aperture radarSea iceConvolutional neural networkComputer scienceRemote sensingSegmentationArtificial intelligenceSea ice concentrationOpen waterGeologyPattern recognition (psychology)Artificial neural networkArctic ice packSea ice thicknessClimatologyOceanographyArctic and Antarctic ice dynamicsCryospheric studies and observationsClimate change and permafrost