Abstract. This paper is concerned with fast and accurate computation of exterior wave equations truncated via exact circular or spherical nonreflecting boundary conditions (NRBCs, which are known to be nonlocal in both time and space). We first derive analytic expressions for the underlying convolution kernels, which allow for a rapid and accurate evaluation of the convolution with O(Nt) operations over Nt successive time steps. To handle the nonlocality in space, we introduce the notion of boundary perturbation, which enables us to handle general bounded scatters by solving a sequence of wave equations in a regular domain. We propose an efficient spectral-Galerkin solver with Newmark’s time integration for the truncated wave equation in th...
Starting from a high-order local nonreflecting boundary condition (NBC) for single scattering [25], ...
Summary: When solving the wave equation in infinite regions using finite ele-ment methods, the domai...
We construct global artificial boundary conditions (ABCs) for the numerical sim-ulation of wave proc...
this paper, we couple fast nonreflecting boundary conditions, developed in [3] for spherical and cyl...
AbstractTo solve the time-dependent wave equation in an infinite two (three) dimensional domain a ci...
The simulation of wave phenomena in unbounded domains generally requires an artificial boundary to t...
Starting from a high-order local nonreflecting boundary condition (NBC) for single scattering [25], ...
Abstract. The numerical solution of the time dependent wave equation in an unbounded domain generall...
The general space-time evolution of the scattering of an incident acoustic plane wave pulse by an ar...
Abstract. We present a systematic approach to the computation of exact nonreflecting bound-ary condi...
The numerical solution of the time dependent wave equation in an unbounded domain generally leads to...
ABSTRACTWhen modeling wave propagation, truncation of the computational domain to a manageable size ...
An exact nonreflecting boundary condition is derived for the time dependent elastic wave equation in...
A sequence of high-order accurate radiation boundary con-ditions involving local differential operat...
Monk, Peter B.We apply the Plane Wave Discontinuous Galerkin (PWDG) method to study the direct scatt...
Starting from a high-order local nonreflecting boundary condition (NBC) for single scattering [25], ...
Summary: When solving the wave equation in infinite regions using finite ele-ment methods, the domai...
We construct global artificial boundary conditions (ABCs) for the numerical sim-ulation of wave proc...
this paper, we couple fast nonreflecting boundary conditions, developed in [3] for spherical and cyl...
AbstractTo solve the time-dependent wave equation in an infinite two (three) dimensional domain a ci...
The simulation of wave phenomena in unbounded domains generally requires an artificial boundary to t...
Starting from a high-order local nonreflecting boundary condition (NBC) for single scattering [25], ...
Abstract. The numerical solution of the time dependent wave equation in an unbounded domain generall...
The general space-time evolution of the scattering of an incident acoustic plane wave pulse by an ar...
Abstract. We present a systematic approach to the computation of exact nonreflecting bound-ary condi...
The numerical solution of the time dependent wave equation in an unbounded domain generally leads to...
ABSTRACTWhen modeling wave propagation, truncation of the computational domain to a manageable size ...
An exact nonreflecting boundary condition is derived for the time dependent elastic wave equation in...
A sequence of high-order accurate radiation boundary con-ditions involving local differential operat...
Monk, Peter B.We apply the Plane Wave Discontinuous Galerkin (PWDG) method to study the direct scatt...
Starting from a high-order local nonreflecting boundary condition (NBC) for single scattering [25], ...
Summary: When solving the wave equation in infinite regions using finite ele-ment methods, the domai...
We construct global artificial boundary conditions (ABCs) for the numerical sim-ulation of wave proc...