In this paper is examined the acceleration of convergence of alternative and non-alternative numerical and power series by means of an Euler-Abel type operator, that is defined earlier by G.A.Sorokin and I.Z.Milovanovic. Through this type of linear operator of generalized difference of sequence is achieved that alternative and non-alternative numerical and power series to be transformed into series with higher speed of convergence than the initial series. At the end of this paper is given the implementation of this method through a numeric example
For every couple (p;q) of strictly positive integers, the `` alternate congruo-harmonic '' series pa...
This paper presents convergence acceleration, a method for computing efficiently the limit of numeri...
The aim of this paper is to introduce a new family of sequences which faster converge to the Euler-M...
AbstractAn iterative non-stationary method, depending on a parameter, has been obtained for accelera...
The rate of convergence of infinite series can be accelerated b y a suitable splitting of each term ...
AbstractThe Θ̂-algorithm is a general extrapolation procedure for accelerating the convergence of se...
AbstractA new algorithm is presented for accelerating the convergence of sequences possessing an asy...
AbstractWe propose a definition of convergence acceleration which seems well adapted for acceleratin...
This work describes numerical methods that are useful in many areas: examples include statistical mo...
When a sequence or an iterative process is slowly converging, a convergence acceleration process has...
In this paper, we give some new algebraic properties of a sequence transformation due to Drummond fo...
AbstractIf the elements in a sequence are connected by recurrence relations, but their values are kn...
AbstractWe compare the epsilon algorithm of Wynn with a generalization of summation by parts for acc...
Because of their widespread utility, it is of interest, especially in applications, to analyze the s...
In this article, in a few pages, we will try to give an idea of convergence acceleration methods and...
For every couple (p;q) of strictly positive integers, the `` alternate congruo-harmonic '' series pa...
This paper presents convergence acceleration, a method for computing efficiently the limit of numeri...
The aim of this paper is to introduce a new family of sequences which faster converge to the Euler-M...
AbstractAn iterative non-stationary method, depending on a parameter, has been obtained for accelera...
The rate of convergence of infinite series can be accelerated b y a suitable splitting of each term ...
AbstractThe Θ̂-algorithm is a general extrapolation procedure for accelerating the convergence of se...
AbstractA new algorithm is presented for accelerating the convergence of sequences possessing an asy...
AbstractWe propose a definition of convergence acceleration which seems well adapted for acceleratin...
This work describes numerical methods that are useful in many areas: examples include statistical mo...
When a sequence or an iterative process is slowly converging, a convergence acceleration process has...
In this paper, we give some new algebraic properties of a sequence transformation due to Drummond fo...
AbstractIf the elements in a sequence are connected by recurrence relations, but their values are kn...
AbstractWe compare the epsilon algorithm of Wynn with a generalization of summation by parts for acc...
Because of their widespread utility, it is of interest, especially in applications, to analyze the s...
In this article, in a few pages, we will try to give an idea of convergence acceleration methods and...
For every couple (p;q) of strictly positive integers, the `` alternate congruo-harmonic '' series pa...
This paper presents convergence acceleration, a method for computing efficiently the limit of numeri...
The aim of this paper is to introduce a new family of sequences which faster converge to the Euler-M...