AbstractThis paper is an extension of the monotone iterative methods for finite difference equations with discrete time delays to a class of nonlinear finite difference system with continuous time delays. The system under consideration is a finite difference approximation of a class of reaction diffusion equations with continuous time delays in the nonlinear reaction under either Dirichlet or Neumann-Robin boundary conditions. Various monotone iterative schemes, which depend on the property of the nonlinear reaction mechanism, are developed for the computation of numerical solutions. It is shown by the method of upper and lower solutions that the two sequences obtained from each iterative scheme converge monotonically from above and below, ...
AbstractThe purpose of this paper is to investigate some numerical aspects of a class of coupled non...
AbstractThe purpose of this paper is to present some iterative methods for numerical solutions of a ...
This report concerns with the numerical solution of nonlinear reaction diffusion equations at the st...
AbstractThe aim of this paper is to present some monotone iterative schemes for computing the soluti...
AbstractThis paper is an extension of the monotone iterative methods for finite difference equations...
AbstractThe aim of this paper is to present some monotone iterative schemes for computing the soluti...
AbstractThis paper is concerned with finite difference solutions of a coupled system of reaction–dif...
AbstractThis paper is concerned with monotone algorithms for the finite difference solutions of a cl...
ABSTRACT. The purpose of this paper is to develop monotone iteration scheme using the notion of uppe...
AbstractThe purpose of this paper is to investigate some numerical aspects of a class of coupled non...
This paper is concerned with the asymptotic behavior of the finite difference solutions of a class o...
This paper is concerned with the asymptotic behavior of the finite difference solutions of a class o...
This paper deals with monotone finite difference iterative algorithms for solving nonlinear singular...
This paper deals with monotone finite difference iterative algorithms for solving non-linear singula...
This paper deals with the existence of traveling wave front solutions of reaction-diffusion systems ...
AbstractThe purpose of this paper is to investigate some numerical aspects of a class of coupled non...
AbstractThe purpose of this paper is to present some iterative methods for numerical solutions of a ...
This report concerns with the numerical solution of nonlinear reaction diffusion equations at the st...
AbstractThe aim of this paper is to present some monotone iterative schemes for computing the soluti...
AbstractThis paper is an extension of the monotone iterative methods for finite difference equations...
AbstractThe aim of this paper is to present some monotone iterative schemes for computing the soluti...
AbstractThis paper is concerned with finite difference solutions of a coupled system of reaction–dif...
AbstractThis paper is concerned with monotone algorithms for the finite difference solutions of a cl...
ABSTRACT. The purpose of this paper is to develop monotone iteration scheme using the notion of uppe...
AbstractThe purpose of this paper is to investigate some numerical aspects of a class of coupled non...
This paper is concerned with the asymptotic behavior of the finite difference solutions of a class o...
This paper is concerned with the asymptotic behavior of the finite difference solutions of a class o...
This paper deals with monotone finite difference iterative algorithms for solving nonlinear singular...
This paper deals with monotone finite difference iterative algorithms for solving non-linear singula...
This paper deals with the existence of traveling wave front solutions of reaction-diffusion systems ...
AbstractThe purpose of this paper is to investigate some numerical aspects of a class of coupled non...
AbstractThe purpose of this paper is to present some iterative methods for numerical solutions of a ...
This report concerns with the numerical solution of nonlinear reaction diffusion equations at the st...