ABSTRACT. In this work, we give an adaptive grid generation method which allows a single point to be added in the regions of large variation. This method uses a quadrature rule as a weight function. Our Weight fimction measures the variation ofthe solution function on each subinterval ofthe solution domain. The method is applied to obtain the numerical solutions ofsome differential equations. A comparison of the numerical solution obtained by this method and other methods is given. KEY WORDS AND PHRASES Finite differences, error estimation, weight function, adaptive grid generation
In this thesis our primary interest is in developing adaptive solution methods for parabolic and ell...
AbstractAdaptive grid methods are becoming established as valuable computational techniques for the ...
Abstract. The optimal incremental function approximation method is implemented for the adaptive and ...
ABSTRACT. In this work, we give an adaptive grid generation method which allows a single point to be...
ABSTRACT. In this work, we give an adaptive grid generation method which allows a single point to be...
In this work, we give an adaptive grid generation method which allows a single point to be added in ...
Abstract: We consider grid adaptation based on an interpolation error estimate for the sol...
AbstractThe present paper is devoted to the development of a system of partial differential equation...
AbstractApproximate solutions of a partial differential equation become inaccurate if they arecomput...
Abstract: For interpolation error estimates, the adaptation problem for a vector function ...
In this paper two adaptive algorithms are presented for the solution of systems of evolutive one-dim...
The objective of this project is to get familiar with the numerical solution of partial differential...
AbstractOver the last few years there has been a significant growth in the use of adaptive grid meth...
At present all numerical schemes based on some form of differencing approach are plagued by some lac...
At present all numerical schemes based on some form of differencing approach are plagued by some lac...
In this thesis our primary interest is in developing adaptive solution methods for parabolic and ell...
AbstractAdaptive grid methods are becoming established as valuable computational techniques for the ...
Abstract. The optimal incremental function approximation method is implemented for the adaptive and ...
ABSTRACT. In this work, we give an adaptive grid generation method which allows a single point to be...
ABSTRACT. In this work, we give an adaptive grid generation method which allows a single point to be...
In this work, we give an adaptive grid generation method which allows a single point to be added in ...
Abstract: We consider grid adaptation based on an interpolation error estimate for the sol...
AbstractThe present paper is devoted to the development of a system of partial differential equation...
AbstractApproximate solutions of a partial differential equation become inaccurate if they arecomput...
Abstract: For interpolation error estimates, the adaptation problem for a vector function ...
In this paper two adaptive algorithms are presented for the solution of systems of evolutive one-dim...
The objective of this project is to get familiar with the numerical solution of partial differential...
AbstractOver the last few years there has been a significant growth in the use of adaptive grid meth...
At present all numerical schemes based on some form of differencing approach are plagued by some lac...
At present all numerical schemes based on some form of differencing approach are plagued by some lac...
In this thesis our primary interest is in developing adaptive solution methods for parabolic and ell...
AbstractAdaptive grid methods are becoming established as valuable computational techniques for the ...
Abstract. The optimal incremental function approximation method is implemented for the adaptive and ...