AbstractIn previous work, by adapting a suitable finite difference method to a particular monotone scheme, the authors and A. Lazer have studied the numerical solution of a system of semilinear elliptic partial differential equations which determines the equilibria of the Volterra–Lotka equations describing prey–predator interactions with diffusion. In this paper, in order to improve the efficiency of the method, we show how Newton's method can be successfully combined with the previous scheme to greatly accelerate the convergence. In some particularly ‘difficult’ problems, the new method reduces the average number of iterations necessary to generate each element of the monotone sequences from 15 to about 3
ABSTRACT. The purpose of this paper is to develop monotone iteration scheme using the notion of uppe...
AbstractMotivated by the application to some degenerate elliptic problems (here, degenerate means no...
AbstractThis paper is an extension of the monotone iterative methods for finite difference equations...
AbstractIn previous work, by adapting a suitable finite difference method to a particular monotone s...
AbstractIn this article a system of semilinear elliptic partial differential equations is studied. T...
AbstractThis paper is concerned with the computational algorithms for finite difference solutions of...
AbstractThis paper is concerned with monotone algorithms for the finite difference solutions of a cl...
AbstractIn this paper some partial differential equations arising in biochemistry are studied from t...
A key aspect of the simulation process is the formulation of proper mathematical models. The model m...
In this work, after a theoretical explanation of the monotone iteration method, there are presented ...
Abstract. This paper deals with monotone relaxation iterates for solving nonlinear monotone dif-fere...
Consider monotone finite difference iterative algorithms for solving coupled systems of semilinear e...
AbstractThis paper deals with discrete monotone iterative methods for solving semilinear singularly ...
A review of the authors’ results is given. Several methods are discussed for solving nonlinear equat...
A wide range of free boundary problems occurring in engineering and industry can be rewritten as a m...
ABSTRACT. The purpose of this paper is to develop monotone iteration scheme using the notion of uppe...
AbstractMotivated by the application to some degenerate elliptic problems (here, degenerate means no...
AbstractThis paper is an extension of the monotone iterative methods for finite difference equations...
AbstractIn previous work, by adapting a suitable finite difference method to a particular monotone s...
AbstractIn this article a system of semilinear elliptic partial differential equations is studied. T...
AbstractThis paper is concerned with the computational algorithms for finite difference solutions of...
AbstractThis paper is concerned with monotone algorithms for the finite difference solutions of a cl...
AbstractIn this paper some partial differential equations arising in biochemistry are studied from t...
A key aspect of the simulation process is the formulation of proper mathematical models. The model m...
In this work, after a theoretical explanation of the monotone iteration method, there are presented ...
Abstract. This paper deals with monotone relaxation iterates for solving nonlinear monotone dif-fere...
Consider monotone finite difference iterative algorithms for solving coupled systems of semilinear e...
AbstractThis paper deals with discrete monotone iterative methods for solving semilinear singularly ...
A review of the authors’ results is given. Several methods are discussed for solving nonlinear equat...
A wide range of free boundary problems occurring in engineering and industry can be rewritten as a m...
ABSTRACT. The purpose of this paper is to develop monotone iteration scheme using the notion of uppe...
AbstractMotivated by the application to some degenerate elliptic problems (here, degenerate means no...
AbstractThis paper is an extension of the monotone iterative methods for finite difference equations...