Seismic methods of subsurface exploration are based on mechanical wave propagation and the numerical modeling of these phenomena is a worthy tool that can be applied as a complement. Since small regions of Earth’s crust are studied, it is necessary to consider absorbing boundary conditions for solving the wave equations efficiently. Therefore, this work presents a derivation of low-order absorbing boundary conditions at the artificial boundaries of the computational domain with the purpose of minimizing spurious reflections. Laboring on a surface S, which separates disturbed and undisturbed regions of the domain, the equations for the absorbing boundary conditons are derived from kinematic conditions, considering continuity of the displacem...
Boundary conditions are derived for numerical wave simulations that minimize artificial reflections ...
International audienceSeismic wave modeling requires using adapted boundary conditions to simulate i...
Solution of the wave equation using techniques such as finite difference or finite element methods c...
Seismic methods of subsurface exploration are based on mechanical wave propagation and the numerical...
International audienceMost numerical codes modeling wave propagation for seismic imaging are based o...
International audienceHigh-order Absorbing Boundary Conditions (ABCs), applied on a rectangular arti...
lauréat meilleur poster par Springer / best poster award by SpringerInternational audienceAbsorbing ...
We develop new numerical anisotropic perfectly matched layer (PML) boundaries for elastic waves in C...
Boundary conditions are derived for numerical wave simulation that minimize artificial reflections f...
Real sedimentary media can usually be characterized as transverse isotropy. To reveal wave propagati...
The technique of artificial absorbing boundaries is often applied in the numerical modelling of wave...
International audienceIn this work, we have worked on possibilities to model artificial boundaries n...
An optimal absorbing boundary condition is designed to model acoustic and elastic wave propagation ...
An absorbing boundary condition is necessary in seismic wave simulation for eliminating the unwanted...
International audienceThe numerical analysis of elastic wave propagation in unbounded media may be d...
Boundary conditions are derived for numerical wave simulations that minimize artificial reflections ...
International audienceSeismic wave modeling requires using adapted boundary conditions to simulate i...
Solution of the wave equation using techniques such as finite difference or finite element methods c...
Seismic methods of subsurface exploration are based on mechanical wave propagation and the numerical...
International audienceMost numerical codes modeling wave propagation for seismic imaging are based o...
International audienceHigh-order Absorbing Boundary Conditions (ABCs), applied on a rectangular arti...
lauréat meilleur poster par Springer / best poster award by SpringerInternational audienceAbsorbing ...
We develop new numerical anisotropic perfectly matched layer (PML) boundaries for elastic waves in C...
Boundary conditions are derived for numerical wave simulation that minimize artificial reflections f...
Real sedimentary media can usually be characterized as transverse isotropy. To reveal wave propagati...
The technique of artificial absorbing boundaries is often applied in the numerical modelling of wave...
International audienceIn this work, we have worked on possibilities to model artificial boundaries n...
An optimal absorbing boundary condition is designed to model acoustic and elastic wave propagation ...
An absorbing boundary condition is necessary in seismic wave simulation for eliminating the unwanted...
International audienceThe numerical analysis of elastic wave propagation in unbounded media may be d...
Boundary conditions are derived for numerical wave simulations that minimize artificial reflections ...
International audienceSeismic wave modeling requires using adapted boundary conditions to simulate i...
Solution of the wave equation using techniques such as finite difference or finite element methods c...