In this paper we provide a new approach for constructing non-reflecting boundary conditions. The boundary conditions are based on summation-by-parts operators and derived without Laplace transformation in time. We prove that the new non-reflecting boundary conditions yield a well-posed problem and that the corresponding numerical approximation is unconditionally stable. The analysis is demonstrated on a hyperbolic system in two space dimensions, and the theoretical results are confirmed by numerical experiments
Many compressible flow and aeroacoustic computations rely on accurate nonre-flecting or radiation bo...
We construct fully discrete stable and accurate numerical schemes for solving partial differential e...
In this article we study the regularity of the solution to hyperbolic boundary value problems define...
In this paper we provide a new approach for constructing non-reflecting boundary conditions. The bou...
Exact non-reflecting boundary conditions for an incompletely parabolic sys-tem have been studied. It...
Exact non-reflecting boundary conditions for an incompletely parabolic system have been studied. It ...
Exact non-reflecting boundary conditions for a linear incompletely parabolic system in one dimension...
A non-reflecting boundary condition (NRBC) for practical computations in fluid dynamics and aeroacou...
About a half of applied problems in mathematical physics are formulated for infinite spatial domains...
In this thesis, we use finite difference operators with the Summation-By-Partsproperty (SBP) and a w...
Summary: When solving the wave equation in infinite regions using finite ele-ment methods, the domai...
We consider two aspects of non-reflecting boundaryconditions for wave propagation problems. First we...
We analyze the extension of summation-by-parts operators and weak boundary conditions for solving in...
We discuss conservative and stable numerical approximations in summation-by-parts form for linear hy...
We discuss finite difference techniques for hyperbolic equations in non-trivial domains, as those th...
Many compressible flow and aeroacoustic computations rely on accurate nonre-flecting or radiation bo...
We construct fully discrete stable and accurate numerical schemes for solving partial differential e...
In this article we study the regularity of the solution to hyperbolic boundary value problems define...
In this paper we provide a new approach for constructing non-reflecting boundary conditions. The bou...
Exact non-reflecting boundary conditions for an incompletely parabolic sys-tem have been studied. It...
Exact non-reflecting boundary conditions for an incompletely parabolic system have been studied. It ...
Exact non-reflecting boundary conditions for a linear incompletely parabolic system in one dimension...
A non-reflecting boundary condition (NRBC) for practical computations in fluid dynamics and aeroacou...
About a half of applied problems in mathematical physics are formulated for infinite spatial domains...
In this thesis, we use finite difference operators with the Summation-By-Partsproperty (SBP) and a w...
Summary: When solving the wave equation in infinite regions using finite ele-ment methods, the domai...
We consider two aspects of non-reflecting boundaryconditions for wave propagation problems. First we...
We analyze the extension of summation-by-parts operators and weak boundary conditions for solving in...
We discuss conservative and stable numerical approximations in summation-by-parts form for linear hy...
We discuss finite difference techniques for hyperbolic equations in non-trivial domains, as those th...
Many compressible flow and aeroacoustic computations rely on accurate nonre-flecting or radiation bo...
We construct fully discrete stable and accurate numerical schemes for solving partial differential e...
In this article we study the regularity of the solution to hyperbolic boundary value problems define...