Cross-Comparison of the "BathySent" Coastal Bathymetry to Sonar Measurements and Ratio Model Technique: Pilot Sites in the Aegean Sea (Greece)

Water(2023)

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Abstract
The proposed novel "BathySent" approach for coastal bathymetric mapping, using the Copernicus Sentinel-2 mission, as well as the assessment and specification of the uncertainties of the derived depth results, are the objectives of this research effort. For this reason, Sentinel-2 bathymetry retrieval results for three different pilot sites in Greece (islands of Kos, Kasos, and Crete) were compared with ground-truth data. These data comprised high-resolution swath bathymetry measurements, single-beam echosounder measurements at very shallow waters (1-10 m), and the EMODnet DTM 2018 release. The synthetic tests showed that the "BathySent" approach could restitute bathymetry in the range of 5-14 m depth, showing a standard deviation of 2 m with respect to the sonar-based bathymetry. In addition, a comparison with the "ratio model" multispectral technique was performed. The absolute differences between conventional Earth Observation-based bathymetry retrieval approaches (i.e., linear ratio model) and the suggested innovative solution, using the Sentinel-2 data, were mainly lower than 2 m. According to the outcome evaluation, both models were considered to provide results that are more reliable within the depth zone of 5-25 m. The "ratio model" technique exhibits a saturation at similar to 25 m depth and demands ground calibration. Though, the "BathySent" method provides bathymetric data at a lower spatial resolution compared to the "ratio model" technique; however, it does not require in situ calibration and can also perform reliably deeper than 25 m.
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Key words
satellite-derived bathymetry,BathySent algorithm,linear ratio model,Sentinel-2,echo sounder
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