International audienceIn this paper we present a global-in-time non-overlapping Schwarz method applied to the Ekman boundary layer problem. Such a coupled problem is representative of large-scale atmospheric and oceanic flows in the vicinity of the air-sea interface. Schwarz waveform relaxation (SWR) algorithms provide attractive methods for ensuring a "tight coupling" between the ocean and the atmosphere. However the convergence study of such algorithms in this context raises a number of challenges. Numerous convergence studies of Schwarz methods have been carried out in idealized settings, but the underlying assumptions to make these studies tractable may prohibit them to be directly extended to the complexity of climate models. We illust...
International audienceThis paper is the second part of a study dealing with the application of a glo...
International audienceIn this paper we present a global-in-time non-overlapping Schwarz method appli...
International audienceWe propose in the present work an extension of the Schwarz waveform relaxation...
International audienceIn this paper we present a global-in-time non-overlapping Schwarz method appli...
International audienceThe interactions between atmosphere and ocean play a major role in many geo-ph...
International audienceMany applications in coastal and operational oceanography require high resolut...
International audienceWe present and study an optimized Schwarz Waveform Relaxation algorithm for co...
Ocean-atmosphere interactions play a major role in many geophysical phenomena such as tropical cyclo...
Model coupling is an important present problem in ocean or atmosphere modelling, where regional mode...
International audienceThis paper is focused on the numerical and computational issues associated to ...
Les interactions océan-atmosphère jouent un rôle majeur dans de nombreux phénomènes géophysiques com...
International audienceIn this study we present a non-overlapping Schwarz waveform relaxation (SWR) m...
AbstractThis paper is focused on the numerical and computational issues associated to ocean-atmosphe...
Many applications in coastal and operational oceanography and meteorology require high resolution lo...
International audienceAlthough the two-way nesting is the most usual coupling method in the ocean co...
International audienceThis paper is the second part of a study dealing with the application of a glo...
International audienceIn this paper we present a global-in-time non-overlapping Schwarz method appli...
International audienceWe propose in the present work an extension of the Schwarz waveform relaxation...
International audienceIn this paper we present a global-in-time non-overlapping Schwarz method appli...
International audienceThe interactions between atmosphere and ocean play a major role in many geo-ph...
International audienceMany applications in coastal and operational oceanography require high resolut...
International audienceWe present and study an optimized Schwarz Waveform Relaxation algorithm for co...
Ocean-atmosphere interactions play a major role in many geophysical phenomena such as tropical cyclo...
Model coupling is an important present problem in ocean or atmosphere modelling, where regional mode...
International audienceThis paper is focused on the numerical and computational issues associated to ...
Les interactions océan-atmosphère jouent un rôle majeur dans de nombreux phénomènes géophysiques com...
International audienceIn this study we present a non-overlapping Schwarz waveform relaxation (SWR) m...
AbstractThis paper is focused on the numerical and computational issues associated to ocean-atmosphe...
Many applications in coastal and operational oceanography and meteorology require high resolution lo...
International audienceAlthough the two-way nesting is the most usual coupling method in the ocean co...
International audienceThis paper is the second part of a study dealing with the application of a glo...
International audienceIn this paper we present a global-in-time non-overlapping Schwarz method appli...
International audienceWe propose in the present work an extension of the Schwarz waveform relaxation...