International audienceMEMSALab is a software in development that will al-low the generation of multiscale multi-physics model families based on their derivation. Here, we present a mini-language to express such models in a way that is both relatively simple and generates the tree structures necessary for derivations. For validation, it is used for the direct construction (i.e. without derivation) of a family of homogenized models of propagation of waves through an interface with periodic structure. The different models are built according to the principle of reusability based on our extension-combination method. In this respect, recent results for this method are announced
Complex physical phenomena are characterized by sub-systems that continuously interact with each oth...
Abstract: A novel dispersive model for wave propagation in heterogeneous media is developed. The met...
International audienceIn the context of elastic wave propagation, the non-periodic homogenization as...
International audienceMEMSALab is a software in development that will al-low the generation of multi...
International audienceMultiphysics models of large arrays of micro- and nanosystems are too complex ...
Abstract: A space-time multiscale model for wave propagation in heterogeneous media is developed. Th...
An exact closed-form method is presented for frequency domain analysis of linear uniform combinedsys...
Dans ce travail, la méthode homogénéisation de multi-échelle, ainsi que diverses méthodes non homogé...
International audienceWe introduce a framework for computer-aided derivation of multi-scale models. ...
A multiscale model is proposed to significantly reduce the expensive numerical simulations of compli...
This paper reports recent advances in the development of a symbolic asymptotic mod-eling software pa...
Multi-scale wave propagation problems are computationally costly to solve by traditional techniqu...
International audienceThis paper reports recent advances in the development of a symbolic asymptotic...
International audienceThis lecture is devoted to the modeling of imperfect interfaces, i.e. models t...
In this work, we report on the formulation and detailed stability analysis of a dynamic multi-scale ...
Complex physical phenomena are characterized by sub-systems that continuously interact with each oth...
Abstract: A novel dispersive model for wave propagation in heterogeneous media is developed. The met...
International audienceIn the context of elastic wave propagation, the non-periodic homogenization as...
International audienceMEMSALab is a software in development that will al-low the generation of multi...
International audienceMultiphysics models of large arrays of micro- and nanosystems are too complex ...
Abstract: A space-time multiscale model for wave propagation in heterogeneous media is developed. Th...
An exact closed-form method is presented for frequency domain analysis of linear uniform combinedsys...
Dans ce travail, la méthode homogénéisation de multi-échelle, ainsi que diverses méthodes non homogé...
International audienceWe introduce a framework for computer-aided derivation of multi-scale models. ...
A multiscale model is proposed to significantly reduce the expensive numerical simulations of compli...
This paper reports recent advances in the development of a symbolic asymptotic mod-eling software pa...
Multi-scale wave propagation problems are computationally costly to solve by traditional techniqu...
International audienceThis paper reports recent advances in the development of a symbolic asymptotic...
International audienceThis lecture is devoted to the modeling of imperfect interfaces, i.e. models t...
In this work, we report on the formulation and detailed stability analysis of a dynamic multi-scale ...
Complex physical phenomena are characterized by sub-systems that continuously interact with each oth...
Abstract: A novel dispersive model for wave propagation in heterogeneous media is developed. The met...
International audienceIn the context of elastic wave propagation, the non-periodic homogenization as...