Almar Rafaël, Bergsma E. W. J., Thoumyre Grégoire, Solange L. C., Loyer S., Artigues S., Salles Grégoire, Garlan T., Lifermann A. (2024). Satellite-derived bathymetry from correlation of Sentinel-2 spectral bands to derive wave kinematics : Qualification of Sentinel-2 S2Shores estimates with hydrographic standards. Coastal Engineering, 189, p. 104458 [8 p.]. ISSN 0378-3839.
Titre du document
Satellite-derived bathymetry from correlation of Sentinel-2 spectral bands to derive wave kinematics : Qualification of Sentinel-2 S2Shores estimates with hydrographic standards
Almar Rafaël, Bergsma E. W. J., Thoumyre Grégoire, Solange L. C., Loyer S., Artigues S., Salles Grégoire, Garlan T., Lifermann A.
Source
Coastal Engineering, 2024,
189, p. 104458 [8 p.] ISSN 0378-3839
There is a pressing need for a fast and efficient satellite remote sensing tool to estimate coastal bathymetry for any coastline in the world. To date, satellite methods for deriving bathymetry have mainly focused on linking the radiometric response to a known water depth, as with SPOT, Landsat and Sentinel. Here, wave properties (static and dynamic) are approximated using the small time delay between the different color bands of Sentinel-2 to then calculate a depth using wave linear dispersion theory. In this paper, we present a spatial correlation method within the S2Shores (Satellites to Shores) Python toolbox: a processing chain/toolbox of coastal observations using methods applied to optical satellites. The resulting individual bathymetries are finally qualified according to the standards of the International Hydrographic Organization, anticipating their operational use.
