In this paper, the iterated defect correction (IDeC) techniques based on the centered Euler method for the equivalent first order system of the singular two-point boundary value problem in linear case (x(alpha)y'(x))' = f(x), y(0) = a,y(1) = b, where 0 < alpha < 1 are considered. By using the asymptotic expansion of the global error, it is analyzed that the IDeC methods improved the approximate results by means of IDeC steps and the degree of the interpolating polynomials used. Some numerical examples from the literature are given in illustration of this theory. C. R. Category: G.1.7
Abstract. We discuss an a-posteriori error estimate for the numerical solution of boundary value pro...
Abstract. In this work the defect–correction technique is used to solve some singularly perturbed el...
Sometimes boundary value problems have isolated regions where the solution changes rapidly. Therefor...
In this paper, the iterated defect correction (IDeC) techniques based on the centered Euler method f...
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...
The use of iterated deferred correction has proved to be a very efficient approach to the numerical ...
Abstract: In this paper we discuss several variants of the acceleration technique known as Iterated ...
AbstractMany problems in physics and engineering give rise to singular differential equations. In th...
Abstract Iterated deferred correction is a very popular approach to the numerical solution of genera...
AbstractIn this paper, we first discuss the constructions of three-point finite-difference approxima...
Abstract. We discuss an a-posteriori error estimate for the numerical solution of boundary value pro...
We discuss a new variant of Iterated Defect Correction (IDeC), which increases the range of applicab...
Abstract. We discuss an a-posteriori error estimate for the numerical solution of boundary value pro...
Abstract. In this work the defect–correction technique is used to solve some singularly perturbed el...
Sometimes boundary value problems have isolated regions where the solution changes rapidly. Therefor...
In this paper, the iterated defect correction (IDeC) techniques based on the centered Euler method f...
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...
The use of iterated deferred correction has proved to be a very efficient approach to the numerical ...
Abstract: In this paper we discuss several variants of the acceleration technique known as Iterated ...
AbstractMany problems in physics and engineering give rise to singular differential equations. In th...
Abstract Iterated deferred correction is a very popular approach to the numerical solution of genera...
AbstractIn this paper, we first discuss the constructions of three-point finite-difference approxima...
Abstract. We discuss an a-posteriori error estimate for the numerical solution of boundary value pro...
We discuss a new variant of Iterated Defect Correction (IDeC), which increases the range of applicab...
Abstract. We discuss an a-posteriori error estimate for the numerical solution of boundary value pro...
Abstract. In this work the defect–correction technique is used to solve some singularly perturbed el...
Sometimes boundary value problems have isolated regions where the solution changes rapidly. Therefor...