This paper is concerned with the rigorous error analysis of a fully discrete scheme obtained by using a central fluxes discontinuous Galerkin (dG) method in space and the Peaceman–Rachford splitting scheme in time. We apply the scheme to a general class of wave-type problems and show that the resulting approximations as well as discrete derivatives thereof satisfy error bounds of the order of the polynomial degree used in the dG discretization and order two in time. In particular, the class of problems considered includes, e.g., the advection equation, the acoustic wave equation, and the Maxwell equations for which a very efficient implementation is possible via an alternating direction implicit (ADI) splitting
This paper is dedicated to the full discretization of linear Maxwell\u27s equations, where the space...
Standard discontinuous Galerkin methods, based on piecewise polynomials of degree $ \qq=0,1$, are co...
This paper deals with the high-order discontinuous Galerkin (DG) method for solving wave propagation...
This paper is concerned with the rigorous error analysis of a fully discrete scheme obtained by usin...
In this paper we consider central fluxes discontinuous Galerkin space discretizations of a general c...
The Peaceman{Rachford alternating direction implicit (ADI) method is considered for the time-integra...
In this thesis the discretization in space and time of a broad class of linear first order wave-type...
This paper is dedicated to the full discretization of linear Maxwell\u27s equations, where the space...
In this article we prove full discretization error bounds for semilinear second-order evolution equa...
We have developed and analyzed a new class of discontinuous Galerkin methods (DG) which can be seen ...
We construct and analyze a second-order implicit-explicit (IMEX) scheme for the time integration of ...
This thesis provides a unified framework for the error analysis of non-conforming space discretizati...
In this paper we investigate an alternating direction implicit (ADI) time integration scheme for the...
We introduce a space-time discretization for elastic and acoustic waves using a discontinuous ...
We construct and analyze a second-order implicit–explicit (IMEX) scheme for the time integration of ...
This paper is dedicated to the full discretization of linear Maxwell\u27s equations, where the space...
Standard discontinuous Galerkin methods, based on piecewise polynomials of degree $ \qq=0,1$, are co...
This paper deals with the high-order discontinuous Galerkin (DG) method for solving wave propagation...
This paper is concerned with the rigorous error analysis of a fully discrete scheme obtained by usin...
In this paper we consider central fluxes discontinuous Galerkin space discretizations of a general c...
The Peaceman{Rachford alternating direction implicit (ADI) method is considered for the time-integra...
In this thesis the discretization in space and time of a broad class of linear first order wave-type...
This paper is dedicated to the full discretization of linear Maxwell\u27s equations, where the space...
In this article we prove full discretization error bounds for semilinear second-order evolution equa...
We have developed and analyzed a new class of discontinuous Galerkin methods (DG) which can be seen ...
We construct and analyze a second-order implicit-explicit (IMEX) scheme for the time integration of ...
This thesis provides a unified framework for the error analysis of non-conforming space discretizati...
In this paper we investigate an alternating direction implicit (ADI) time integration scheme for the...
We introduce a space-time discretization for elastic and acoustic waves using a discontinuous ...
We construct and analyze a second-order implicit–explicit (IMEX) scheme for the time integration of ...
This paper is dedicated to the full discretization of linear Maxwell\u27s equations, where the space...
Standard discontinuous Galerkin methods, based on piecewise polynomials of degree $ \qq=0,1$, are co...
This paper deals with the high-order discontinuous Galerkin (DG) method for solving wave propagation...