Application of interpolation theory to the analysis of the convergence rate for finite difference schemes of parabolic type

Dejan Bojović; Boško S. Jovanović

Authors

Dejan Bojović University of Kragujevac, Faculty of Science, Radoja Domanovića 12, 34000 Kragujevac, Yugoslavia Author
Boško S. Jovanović University of Belgrade, Faculty of Mathematics, Studentski trg 16, 11000 Belgrade, Yugoslavia Author

Keywords:

Initial-boundary Value Problems, Finite Differences, Interpolation of Function Spaces, Sobolev Spaces, Convergence Rate Estimates

Subjects:

65M15, 46B70

Abstract

In this paper we show how the theory of interpolation of function spaces can be used to establish convergence rate estimates for finite difference schemes. As a model problem we consider the first initial-boundary value problem for the heat equation with variable coefficients. We assume that the solution of the problem and the coefficients of the equation belong to the corresponding Sobolev spaces. Using interpolation theory we construct a fractional-order convergence rate estimate which is consistent with the smoothness of the data.

Application of interpolation theory to the analysis of the convergence rate for finite difference schemes of parabolic type

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