@article{fdi:010089567,
  title = {{S}atellite-derived bathymetry from correlation of {S}entinel-2 spectral bands to derive wave kinematics : {Q}ualification of {S}entinel-2 {S}2{S}hores estimates with hydrographic standards},
  author = {{A}lmar, {R}afa{\¨e}l and {B}ergsma, {E}. {W}. {J}. and {T}houmyre, {G}r{\'e}goire and {S}olange, {L}. {C}. and {L}oyer, {S}. and {A}rtigues, {S}. and {S}alles, {G}r{\'e}goire and {G}arlan, {T}. and {L}ifermann, {A}.},
  editor = {},
  language = {{ENG}},
  abstract = {{T}here is a pressing need for a fast and efficient satellite remote sensing tool to estimate coastal bathymetry for any coastline in the world. {T}o date, satellite methods for deriving bathymetry have mainly focused on linking the radiometric response to a known water depth, as with {SPOT}, {L}andsat and {S}entinel. {H}ere, wave properties (static and dynamic) are approximated using the small time delay between the different color bands of {S}entinel-2 to then calculate a depth using wave linear dispersion theory. {I}n this paper, we present a spatial correlation method within the {S}2{S}hores ({S}atellites to {S}hores) {P}ython toolbox: a processing chain/toolbox of coastal observations using methods applied to optical satellites. {T}he resulting individual bathymetries are finally qualified according to the standards of the {I}nternational {H}ydrographic {O}rganization, anticipating their operational use.},
  keywords = {{K}eyords ; {O}ptical imagery ; {S}2{S}hores ; {S}atellite to shores ; {S}atellite-derived bathymetry ; {A}quitain atlantic coast ; {F}rance ; {FRANCE} ; {ATLANTIQUE}},
  booktitle = {},
  journal = {{C}oastal {E}ngineering},
  volume = {189},
  numero = {},
  pages = {104458 [8 ]},
  ISSN = {0378-3839},
  year = {2024},
  DOI = {10.1016/j.coastaleng.2024.104458},
  URL = {https://www.documentation.ird.fr/hor/fdi:010089567},
}