AbstractOne-way wave equations (OWWEs), derived from rational approximations, C(s) to 11minus;SS, are considered. Absorbing boundary conditions obtained from these OWWEs are easily implemented, producing systems of differential equations at the boundary which are different from those produced by rational approximations, r(s) to 11minus;SS. Although these systems are different, a particular choice of difference approximation for the system yields numerical methods such that stability properties of both approaches are equivalent. In particular, for C(s) = 1r(s), the two systems possess equivalent stability properties. In other cases, numerical results are presented which demonstrate that, where C(s) and r(s) are not derived via interpolation,...
In this project, a one-dimensional wave equation, which is a partial differential equation (PDE) des...
In models of water waves, solutions are often sought on an unbounded domain. To generate computer si...
The technique of artificial absorbing boundaries is often applied in the numerical modelling of wave...
A one-way wave equation is a partial differential which, in some approximate sense, behaves like the...
Boundary conditions are derived for numerical wave simulation that minimize artificial reflections f...
Many practical problems involve wave propagation through atmosphere, oceans, or terrestrial crust. M...
International audienceIn this article we discuss different techniques to solve numerically wave prop...
The presence of wave motion is the defining feature in many fields of application,such as electro-ma...
An absorbing boundary condition is necessary in seismic wave simulation for eliminating the unwanted...
We develop a new class of absorbing boundary conditions (ABCs) to prevent unwanted artifacts and wra...
The simulation of wave phenomena in unbounded domains generally requires an artificial boundary to t...
An optimal absorbing boundary condition is designed to model acoustic and elastic wave propagation ...
An estimate is derived for the error committed by the introduction of artificial boundaries and corr...
AbstractStability of the pseudospectral Chebychev collocation solution of the two-dimensional acoust...
The standard boundary conditions used at the sides of a seismic section in wave-equation migration g...
In this project, a one-dimensional wave equation, which is a partial differential equation (PDE) des...
In models of water waves, solutions are often sought on an unbounded domain. To generate computer si...
The technique of artificial absorbing boundaries is often applied in the numerical modelling of wave...
A one-way wave equation is a partial differential which, in some approximate sense, behaves like the...
Boundary conditions are derived for numerical wave simulation that minimize artificial reflections f...
Many practical problems involve wave propagation through atmosphere, oceans, or terrestrial crust. M...
International audienceIn this article we discuss different techniques to solve numerically wave prop...
The presence of wave motion is the defining feature in many fields of application,such as electro-ma...
An absorbing boundary condition is necessary in seismic wave simulation for eliminating the unwanted...
We develop a new class of absorbing boundary conditions (ABCs) to prevent unwanted artifacts and wra...
The simulation of wave phenomena in unbounded domains generally requires an artificial boundary to t...
An optimal absorbing boundary condition is designed to model acoustic and elastic wave propagation ...
An estimate is derived for the error committed by the introduction of artificial boundaries and corr...
AbstractStability of the pseudospectral Chebychev collocation solution of the two-dimensional acoust...
The standard boundary conditions used at the sides of a seismic section in wave-equation migration g...
In this project, a one-dimensional wave equation, which is a partial differential equation (PDE) des...
In models of water waves, solutions are often sought on an unbounded domain. To generate computer si...
The technique of artificial absorbing boundaries is often applied in the numerical modelling of wave...