Add to ORKGa b s t r a c t We analyze two approaches for enhancing the accuracy of the standard second order finite difference schemes in solving one dimensional elliptic partial differential equations. These are the fourth order compact difference scheme and the fourth order scheme based on the Richardson extrapolation techniques. We study the truncation errors of these approaches and comment on their regularity requirements and computational costs. We present numerical experiments to demonstrate the validity of our analysis
This investigation is concerned with the accuracy of numerical schemes for solving partial different...
Richardson extrapolation is a methodology for improving the order of accuracy of nu-merical solution...
A class of high-order compact (HOC) finite difference schemes is developed that exhibits higher-orde...
AbstractWe analyze two approaches for enhancing the accuracy of the standard second order finite dif...
AbstractWe describe a compact finite difference scheme to solve div v − q2u = 0, v = ϱ grad u, which...
The numerical solution of second order ordinary differential equations with initial conditions is he...
The problem of convergence and stability of finite difference schemes used for solving boundary valu...
We develop and analyze finite difference schemes for the two-dimensional Helmholtz equation. The sch...
AbstractWe discuss the issue of choosing a finite difference scheme for numerical differentiation in...
Abstract: We investigate accuracy of finite-difference scheme R3 based on conservative 4-p...
An inherent contradiction in the finite-difference methods for the Laplace equation is demonstrated....
We solve nonlinear elliptic PDEs by stable finite difference schemes of high order on a uniform mesh...
AbstractThe elliptic Equation (1) with boundary value conditions either (2) or (3) is solved by an O...
In this paper, high-order compact-difference schemes involving a large number of mesh points in the ...
This paper presents a nonstandard local approach to Richardson extrapolation, when it is used to inc...
This investigation is concerned with the accuracy of numerical schemes for solving partial different...
Richardson extrapolation is a methodology for improving the order of accuracy of nu-merical solution...
A class of high-order compact (HOC) finite difference schemes is developed that exhibits higher-orde...
AbstractWe analyze two approaches for enhancing the accuracy of the standard second order finite dif...
AbstractWe describe a compact finite difference scheme to solve div v − q2u = 0, v = ϱ grad u, which...
The numerical solution of second order ordinary differential equations with initial conditions is he...
The problem of convergence and stability of finite difference schemes used for solving boundary valu...
We develop and analyze finite difference schemes for the two-dimensional Helmholtz equation. The sch...
AbstractWe discuss the issue of choosing a finite difference scheme for numerical differentiation in...
Abstract: We investigate accuracy of finite-difference scheme R3 based on conservative 4-p...
An inherent contradiction in the finite-difference methods for the Laplace equation is demonstrated....
We solve nonlinear elliptic PDEs by stable finite difference schemes of high order on a uniform mesh...
AbstractThe elliptic Equation (1) with boundary value conditions either (2) or (3) is solved by an O...
In this paper, high-order compact-difference schemes involving a large number of mesh points in the ...
This paper presents a nonstandard local approach to Richardson extrapolation, when it is used to inc...
This investigation is concerned with the accuracy of numerical schemes for solving partial different...
Richardson extrapolation is a methodology for improving the order of accuracy of nu-merical solution...
A class of high-order compact (HOC) finite difference schemes is developed that exhibits higher-orde...