Add to ORKGBoundary conditions are derived for numerical wave simulation that minimize artificial reflections from the edges of the domain of computation. In this way acoustic and elastic wave propagation in a limited area can be efficiently used to describe physical behavior in an unbounded domain. The boundary conditions are based on paraxial approximations of the scalar and elastic wave equations. They are computationally inexpensive and simple to apply, and they reduce reflections over a wide range of incident angles
The presence of wave motion is the defining feature in many fields of application,such as electro-ma...
International audienceThe numerical analysis of elastic wave propagation in unbounded media may be d...
International audienceThe calculation of wave radiation in exterior domains by finite element method...
Boundary conditions are derived for numerical wave simulation that minimize artificial reflections f...
The model developed in this theses is another confirmation that the Dirichlet boundary conditions (f...
Many practical problems involve wave propagation through atmosphere, oceans, or terrestrial crust. M...
An optimal absorbing boundary condition is designed to model acoustic and elastic wave propagation ...
Summary. For finite element analysis of wave propagation in an elastic medium surrounded by an adjac...
Boundary conditions are derived for numerical wave simulations that minimize artificial reflections ...
The technique of artificial absorbing boundaries is often applied in the numerical modelling of wave...
For the propagation of elastic waves in unbounded domains, absorbing boundary conditions at the fic...
The standard boundary conditions used at the sides of a seismic section in wave-equation migration g...
Absorbing boundary conditions have been developed for truncating unbounded computational domains to ...
International audienceThe numerical analysis of elastic wave propagation in unbounded media may be d...
The numerical solution of the time dependent wave equation in an unbounded domain generally leads to...
The presence of wave motion is the defining feature in many fields of application,such as electro-ma...
International audienceThe numerical analysis of elastic wave propagation in unbounded media may be d...
International audienceThe calculation of wave radiation in exterior domains by finite element method...
Boundary conditions are derived for numerical wave simulation that minimize artificial reflections f...
The model developed in this theses is another confirmation that the Dirichlet boundary conditions (f...
Many practical problems involve wave propagation through atmosphere, oceans, or terrestrial crust. M...
An optimal absorbing boundary condition is designed to model acoustic and elastic wave propagation ...
Summary. For finite element analysis of wave propagation in an elastic medium surrounded by an adjac...
Boundary conditions are derived for numerical wave simulations that minimize artificial reflections ...
The technique of artificial absorbing boundaries is often applied in the numerical modelling of wave...
For the propagation of elastic waves in unbounded domains, absorbing boundary conditions at the fic...
The standard boundary conditions used at the sides of a seismic section in wave-equation migration g...
Absorbing boundary conditions have been developed for truncating unbounded computational domains to ...
International audienceThe numerical analysis of elastic wave propagation in unbounded media may be d...
The numerical solution of the time dependent wave equation in an unbounded domain generally leads to...
The presence of wave motion is the defining feature in many fields of application,such as electro-ma...
International audienceThe numerical analysis of elastic wave propagation in unbounded media may be d...
International audienceThe calculation of wave radiation in exterior domains by finite element method...