Sea state from single optical images: A methodology to derive wind-generated ocean waves from cameras, drones and satellites
link https://doi.org/10.3390/rs13040679account_box Almar, R.account_box Bergsma, E. W. J.account_box Catalán, P. A.account_box Cienfuegos Carrasco, Rodrigo Albertoaccount_box Suárez Atias, Leandroaccount_box Lucero, F.account_box Lerma, A. N.account_box Desmazes, F.account_box Perugini, E.account_box Palmsten, M. L.account_box Chickadel, C.
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Sea state is a key variable in ocean and coastal dynamics. The sea state is either sparsely measured by wave buoys and satellites or modelled over large scales. Only a few attempts have been devoted to sea state measurements covering a large domain; in particular its estimation from optical images. With optical technologies becoming omnipresent, optical images offer incomparable spatial resolution from diverse sensors such as shore-based cameras, airborne drones (unmanned aerial vehicles/UAVs), or satellites. Here, we present a standalone methodology to derive the water surface elevation anomaly induced by wind-generated ocean waves from optical imagery. The methodology was tested on drone and satellite images and compared against ground truth. The results show a clear dependence on the relative azimuth view angle in relation to the wave crest. A simple correction is proposed to overcome this bias. Overall, the presented methodology offers a practical way of estimating ocean waves for a wide range of applications.
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| Autor | Almar, R. Bergsma, E. W. J. Catalán, P. A. Cienfuegos Carrasco, Rodrigo Alberto Suárez Atias, Leandro Lucero, F. Lerma, A. N. Desmazes, F. Perugini, E. Palmsten, M. L. Chickadel, C. |
| Título | Sea state from single optical images: A methodology to derive wind-generated ocean waves from cameras, drones and satellites |
| Revista | Remote Sensing |
| ISSN | 2072-4292 |
| Volumen | 13 |
| Número de publicación | 4 |
| Página inicio | 1 |
| Página final | 8 |
| Fecha de publicación | 2021 |
| Resumen | Sea state is a key variable in ocean and coastal dynamics. The sea state is either sparsely measured by wave buoys and satellites or modelled over large scales. Only a few attempts have been devoted to sea state measurements covering a large domain; in particular its estimation from optical images. With optical technologies becoming omnipresent, optical images offer incomparable spatial resolution from diverse sensors such as shore-based cameras, airborne drones (unmanned aerial vehicles/UAVs), or satellites. Here, we present a standalone methodology to derive the water surface elevation anomaly induced by wind-generated ocean waves from optical imagery. The methodology was tested on drone and satellite images and compared against ground truth. The results show a clear dependence on the relative azimuth view angle in relation to the wave crest. A simple correction is proposed to overcome this bias. Overall, the presented methodology offers a practical way of estimating ocean waves for a wide range of applications. |
| Derechos | acceso abierto |
| Licencia | ATTRIBUTION 4.0 INTERNATIONAL |
| DOI | 10.3390/rs13040679 |
| Enlace | |
| Id de publicación en Scopus | SCOPUS_ID:2-s2.0-85100918845 |
| Id de publicación en WoS | WOS:000624436200001 |
| Paginación | 8 páginas |
| Palabra clave | Optical remote sensing Waves Camera Drone Satellite |
| Tema ODS | 14 Life below water 13 Climate action |
| Tema ODS español | 14 Vida submarina 13 Acción por el clima |
| Temática | Ingeniería |
| Tipo de documento | artículo |