We discuss a new variant of Iterated Defect Correction (IDeC), which increases the range of applicability of the method. Splitting methods are utilized in conjunction with special integration methods for Hamiltonian systems, or other initial value problems for ordinary differential equations with a particular structure, to solve the neighboring problems occurring in the course of the IDeC iteration. We demonstrate that this acceleration technique serves to rapidly increase the convergence order of the resulting numerical approximations, up to the theoretical limit given by the order of certain superconvergent collocation methods
We study the local defect correction (LDC) method, introduced in [7]. We focus on the behavior of LD...
AbstractAn iterative method for the numerical solution of singularly perturbed second-order linear e...
Splitting methods for the numerical integration of differential equations of order greater than two ...
Abstract: In this paper we discuss several variants of the acceleration technique known as Iterated ...
Abstract. In this paper we discuss new variants of the acceleration tech-nique known as Iterated Def...
Abstract. In this paper we discuss new variants of the acceleration tech-nique known as Iterated Def...
The well-known method of Iterated Defect Correction (IDeC) is based on the following idea: Compute a...
Asymptotic expansions of the global error of iterated defect correction (IDeC) techniques based on t...
In this paper, the iterated defect correction (IDeC) techniques based on the centered Euler method f...
We analyze a special case of the Local Defect Correction (LDC) method introduced in [4]. We restrict...
summary:We present two defect correction schemes to accelerate the Petrov-Galerkin finite element me...
Strategies for reducing the effect of cumulative rounding errors in geometric numerical integration ...
The aim of the work described in this thesis is the construction and the study of structure-preservi...
We provide a comprehensive survey of splitting and composition methods for the numerical integratio...
Abstract. A class of novel deferred correction methods, integral deferred correction (IDC) methods, ...
We study the local defect correction (LDC) method, introduced in [7]. We focus on the behavior of LD...
AbstractAn iterative method for the numerical solution of singularly perturbed second-order linear e...
Splitting methods for the numerical integration of differential equations of order greater than two ...
Abstract: In this paper we discuss several variants of the acceleration technique known as Iterated ...
Abstract. In this paper we discuss new variants of the acceleration tech-nique known as Iterated Def...
Abstract. In this paper we discuss new variants of the acceleration tech-nique known as Iterated Def...
The well-known method of Iterated Defect Correction (IDeC) is based on the following idea: Compute a...
Asymptotic expansions of the global error of iterated defect correction (IDeC) techniques based on t...
In this paper, the iterated defect correction (IDeC) techniques based on the centered Euler method f...
We analyze a special case of the Local Defect Correction (LDC) method introduced in [4]. We restrict...
summary:We present two defect correction schemes to accelerate the Petrov-Galerkin finite element me...
Strategies for reducing the effect of cumulative rounding errors in geometric numerical integration ...
The aim of the work described in this thesis is the construction and the study of structure-preservi...
We provide a comprehensive survey of splitting and composition methods for the numerical integratio...
Abstract. A class of novel deferred correction methods, integral deferred correction (IDC) methods, ...
We study the local defect correction (LDC) method, introduced in [7]. We focus on the behavior of LD...
AbstractAn iterative method for the numerical solution of singularly perturbed second-order linear e...
Splitting methods for the numerical integration of differential equations of order greater than two ...