Mapping icebergs in sea ice: An analysis of seasonal SAR backscatter at C- and L-band
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https://hdl.handle.net/10037/34409Date
2024-02-24Type
Journal articleTidsskriftartikkel
Peer reviewed
Abstract
Icebergs in the Arctic can pose a threat to maritime traffic and offshore installations and influence the properties
of the upper ocean layer. While icebergs in open water are regularly monitored using C-band SAR satellites, less
attention has been paid to icebergs in regions with a high areal fraction of sea ice, where detection using
traditional methods is more difficult. In this study, we compare the capability of C- and L-band SAR to detect
icebergs in level and deformed fast sea ice across various seasons. To this end we use a timeseries of SAR images
acquired at HH- and HV-polarization in 2019 and 2020, covering respectively 301 and 356 icebergs. As reference
data for validation, we used iceberg polygons derived from Sentinel-2 images. Our results reveal that compared
to C-band, L-band SAR is significantly better at separating the backscatter of icebergs and sea ice and thus is
preferable for detecting icebergs in ocean regions with a high sea ice concentration. It is further shown that L-band SAR is less affected by melting conditions, suggesting that it can be used for iceberg detections in both
summer and winter.
Is part of
Færch, L. (2024). Iceberg Detection for Arctic Operations - A Comparison of C- and L-band Wide-Swath SAR. (Doctoral thesis). https://hdl.handle.net/10037/34431Publisher
ElsevierCitation
Færch L, Dierking WFO, Hughes N, Doulgeris ap. Mapping icebergs in sea ice: An analysis of seasonal SAR backscatter at C- and L-band . Remote Sensing of Environment. 2024;304:1-17Metadata
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