, Le faible ratio de temps de calcul sur temps simulé (10 -4 à 10 -3 avec SWAN sinon 10 -6 ) fait de LX-shore un outil plus adapté à la modélisation long-terme. Les travaux futurs impliqueront un travail de validation quantitative en s'appuyant notamment
High-angle wave instability and emergent shoreline shapes: 1. Modeling of sand waves, flying spits, and capes http://dx.doi.org/10 A generalized equilibrium model for predicting daily to interannual shoreline response New insights into embayed beach rotation: The importance of wave exposure and cross-shore processes, Journal of Geophysical Research Journal of Geophysical Research: Earth Surface Journal of Geophysical Research Earth Surface, vol.111, issue.1208, pp.1936-1958, 1029. ,
A numerical shoreline model for shorelines with large curvature, Coastal Engineering, vol.74, pp.19-32, 2013. ,
Alongshore Sediment Transport Rate, Journal of Waterway, Port, Coastal, and Ocean Engineering, vol.117117, issue.6624, pp.624-6400733, 1991. ,
Direct Formula to Compute Wave Height and Angle at Incipient Breaking Statistical modeling of interannual shoreline change driven by North Atlantic climate variability spanning, in the Bay of Biscay. Geo- Marine Letters, pp.119-122, 2000. ,
Modélisation de l'évolution long-terme du trait de côte le long des littoraux sableux dominés par l'action des vagues Disponible en ligne sur URL : https://hal-brgm.archives-ouvertes.fr/tel-01727831 A reducedcomplexity shoreline change model combining longshore and cross-shore processes: the LX-Shore model. Environmental Modelling & Software A model integrating longshore and cross-shore processes for predicting long-term shoreline response to climate change, Journal of Geophysical Research: Earth Surface, vol.122, issue.4, pp.782-806, 2017. ,