A-priori error estimates of Galerkin backward differentiation methods in time-inhomogeneous parabolic problems |
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Authors: | E. Gekeler |
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Affiliation: | (1) Mathematisches Institut A der Universität Stuttgart, Pfaffenwaldring 57, Postfach 560, D-7000 Stuttgart, Germany (Fed. Rep.) |
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Abstract: | Summary Backward differentiation methods up to orderk=5 are applied to solve linear ordinary and partial (parabolic) differential equations where in the second case the space variables are discretized by Galerkin procedures. Using a mean square norm over all considered time levels a-priori error estimates are derived. The emphasis of the results lies on the fact that the obtained error bounds do not depend on a Lipschitz constant and the dimension of the basic system of ordinary differential equations even though this system is allowed to have time-varying coefficients. It is therefore possible to use the bounds to estimate the error of systems with arbitrary varying dimension as they arise in the finite element regression of parabolic problems. |
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Keywords: | AMS (MOS): 65L05, 65M10, 65M15, 65M20, 65N15, 65N30 CR: 5.17 |
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