International audienceIn this work, we derive high order Equivalent Absorbing Boundary Conditions EABCs that model the propagation of waves in semi-infinite bilayered acoustic media. Our motivation is to restrict the computational domain in the simulation of seismic waves that are propagated from the earth and transmitted to the stratified heterogeneous media composed by ocean and atmosphere. These EABCs are adapted to Hagstrom-Warburton ABCs and appear as first and second order of approximation with respect to a small parameter involved in a multiscale expansion. Computational tests illustrate the accuracy of the first approximate model with respect to the small parameter
International audienceThe numerical analysis of elastic wave propagation in unbounded media may be d...
Mes travaux de thèse portent sur la construction de conditions aux limites absorbantes (CLAs) pour d...
International audienceThe calculation of wave radiation in exterior domains by finite element method...
In this work, we derive high order Equivalent Absorbing Boundary Conditions EABCs that model the pro...
International audienceIn this work, we have worked on possibilities to model artificial boundaries n...
International audienceHigh-order Absorbing Boundary Conditions (ABCs), applied on a rectangular arti...
Many practical problems involve wave propagation through atmosphere, oceans, or terrestrial crust. M...
We study wave transmission through infinite media. From the computational point of view, an infinite...
International audienceThis article is devoted to the derivation and assessment of local Absorbing Bo...
Boundary conditions are derived for numerical wave simulations that minimize artificial reflections ...
The presence of wave motion is the defining feature in many fields of application,such as electro-ma...
Boundary conditions are derived for numerical wave simulation that minimize artificial reflections f...
Accurate and efficient computational treatments of wave propagation in unbounded media rely on speci...
An optimal absorbing boundary condition is designed to model acoustic and elastic wave propagation ...
High-order absorbing boundary conditions (ABC) and perfectly matched layers (PML) are two powerful m...
International audienceThe numerical analysis of elastic wave propagation in unbounded media may be d...
Mes travaux de thèse portent sur la construction de conditions aux limites absorbantes (CLAs) pour d...
International audienceThe calculation of wave radiation in exterior domains by finite element method...
In this work, we derive high order Equivalent Absorbing Boundary Conditions EABCs that model the pro...
International audienceIn this work, we have worked on possibilities to model artificial boundaries n...
International audienceHigh-order Absorbing Boundary Conditions (ABCs), applied on a rectangular arti...
Many practical problems involve wave propagation through atmosphere, oceans, or terrestrial crust. M...
We study wave transmission through infinite media. From the computational point of view, an infinite...
International audienceThis article is devoted to the derivation and assessment of local Absorbing Bo...
Boundary conditions are derived for numerical wave simulations that minimize artificial reflections ...
The presence of wave motion is the defining feature in many fields of application,such as electro-ma...
Boundary conditions are derived for numerical wave simulation that minimize artificial reflections f...
Accurate and efficient computational treatments of wave propagation in unbounded media rely on speci...
An optimal absorbing boundary condition is designed to model acoustic and elastic wave propagation ...
High-order absorbing boundary conditions (ABC) and perfectly matched layers (PML) are two powerful m...
International audienceThe numerical analysis of elastic wave propagation in unbounded media may be d...
Mes travaux de thèse portent sur la construction de conditions aux limites absorbantes (CLAs) pour d...
International audienceThe calculation of wave radiation in exterior domains by finite element method...