A general approach to the construction of accelerated convergence methods for vector sequences is proposed. A simplified version of minimal polynomial extrapolation is emphasized. The convergence of this method is analyzed and it is shown that it is especially suitable for accelerating the convergence of vector sequences that are obtained when one solves linear systems of equations iteratively
AbstractIn this paper we first give the relation between some definitions of linearly convergent vec...
AbstractThe present paper is a survey of the most popular vector extrapolation methods such as the r...
AbstractIt is shown that the four vector extrapolation methods, minimal polynomial extrapolation, re...
A general approach to the construction of convergence acceleration methods for vector sequence is pr...
The minimal polynomial and reduced rank extrapolation algorithms are two acceleration of convergence...
Some recent developments in acceleration of convergence methods for vector sequences are reviewed. T...
In this article, in a few pages, we will try to give an idea of convergence acceleration methods and...
This dissertation is devoted to the acceleration of convergence of vector sequences. This means to p...
AbstractMany numerical methods produce sequences of vectors converging to the solution of a problem....
AbstractLogarithmic convergence of scalar sequences is generalized to vector sequences. Some sequenc...
This paper presents a general framework for Shanks transformations of sequences of elements in a vec...
AbstractThe purpose of this paper is to propose acceleration methods for certain logarithmically con...
AbstractAn important problem that arises in different areas of science and engineering is that of co...
AbstractIn two previous papers [10,11] convergence and stability results for the following vector ex...
AbstractIn this paper, a methodology for the construction of various vector sequence transformations...
AbstractIn this paper we first give the relation between some definitions of linearly convergent vec...
AbstractThe present paper is a survey of the most popular vector extrapolation methods such as the r...
AbstractIt is shown that the four vector extrapolation methods, minimal polynomial extrapolation, re...
A general approach to the construction of convergence acceleration methods for vector sequence is pr...
The minimal polynomial and reduced rank extrapolation algorithms are two acceleration of convergence...
Some recent developments in acceleration of convergence methods for vector sequences are reviewed. T...
In this article, in a few pages, we will try to give an idea of convergence acceleration methods and...
This dissertation is devoted to the acceleration of convergence of vector sequences. This means to p...
AbstractMany numerical methods produce sequences of vectors converging to the solution of a problem....
AbstractLogarithmic convergence of scalar sequences is generalized to vector sequences. Some sequenc...
This paper presents a general framework for Shanks transformations of sequences of elements in a vec...
AbstractThe purpose of this paper is to propose acceleration methods for certain logarithmically con...
AbstractAn important problem that arises in different areas of science and engineering is that of co...
AbstractIn two previous papers [10,11] convergence and stability results for the following vector ex...
AbstractIn this paper, a methodology for the construction of various vector sequence transformations...
AbstractIn this paper we first give the relation between some definitions of linearly convergent vec...
AbstractThe present paper is a survey of the most popular vector extrapolation methods such as the r...
AbstractIt is shown that the four vector extrapolation methods, minimal polynomial extrapolation, re...