AbstractWe describe a locally one-dimensional (LOD) time integration scheme for the diffusion equation in two space dimensions: ut = ν(uxx + uyy), based on the extended trapezoidal formula (ETF). The resulting LOD-ETF scheme is third order in time and is unconditionally stable. We describe the scheme for both Dirichlet and Neumann boundary conditions. We then extend the LOD-ETF scheme for nonlinear reaction-diffusion equations and for the convection-diffusion equation in two space dimensions. Numerical experiments are given to illustrate the obtained scheme and to compare its performance with the better-known LOD Crank-Nicolson scheme. While the LOD Crank-Nicolson scheme can give unwanted oscillations in the computed solution, our present L...
This paper introduces a set of new fully explicit numerical algorithms to solve the spatially discre...
An unconditionally stable alternating direction explicit scheme (ADE) to solve the one-dimensional u...
This paper considers the numerical solution of time-dependent convection-diffusion-reaction equation...
AbstractWe describe a locally one-dimensional (LOD) time integration scheme for the diffusion equati...
AbstractA finite-difference scheme for the diffusion equation that has enjoyed great popularity is t...
AbstractWe first describe a one-parameter family of unconditionally stable third-order time-integrat...
We introduce a class of alternating direction implicit (ADI) methods, based on approximate factoriza...
AbstractA new second-order finite difference scheme based on the (3,3) alternating direction implici...
AbstractThree new fully implicit methods which are based on the (5,5) Crank-Nicolson method, the (5,...
In this report Rosenbrock, extended and generalized trapezoidal formulae are considered. Numerical s...
AbstractNonclassical parabolic initial-boundary value problems arise in the study of several importa...
AbstractThird and fourth order Taylor–Galerkin schemes have shown to be efficient finite element sch...
In this paper the numerical solutions of one dimensional diffusion equation using some finite differ...
AbstractWe consider here the finite difference approximation to the diffusion-convection equation, f...
The construction of finite difference schemes in two dimensions is more ambiguous than in one dimens...
This paper introduces a set of new fully explicit numerical algorithms to solve the spatially discre...
An unconditionally stable alternating direction explicit scheme (ADE) to solve the one-dimensional u...
This paper considers the numerical solution of time-dependent convection-diffusion-reaction equation...
AbstractWe describe a locally one-dimensional (LOD) time integration scheme for the diffusion equati...
AbstractA finite-difference scheme for the diffusion equation that has enjoyed great popularity is t...
AbstractWe first describe a one-parameter family of unconditionally stable third-order time-integrat...
We introduce a class of alternating direction implicit (ADI) methods, based on approximate factoriza...
AbstractA new second-order finite difference scheme based on the (3,3) alternating direction implici...
AbstractThree new fully implicit methods which are based on the (5,5) Crank-Nicolson method, the (5,...
In this report Rosenbrock, extended and generalized trapezoidal formulae are considered. Numerical s...
AbstractNonclassical parabolic initial-boundary value problems arise in the study of several importa...
AbstractThird and fourth order Taylor–Galerkin schemes have shown to be efficient finite element sch...
In this paper the numerical solutions of one dimensional diffusion equation using some finite differ...
AbstractWe consider here the finite difference approximation to the diffusion-convection equation, f...
The construction of finite difference schemes in two dimensions is more ambiguous than in one dimens...
This paper introduces a set of new fully explicit numerical algorithms to solve the spatially discre...
An unconditionally stable alternating direction explicit scheme (ADE) to solve the one-dimensional u...
This paper considers the numerical solution of time-dependent convection-diffusion-reaction equation...