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A moving mesh method with variable relaxation time

Numerical Analysis 2010-06-11 v1
Authors: Ali Reza Soheili , John M. Stockie
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Abstract

We propose a moving mesh adaptive approach for solving time-dependent partial differential equations. The motion of spatial grid points is governed by a moving mesh PDE (MMPDE) in which a mesh relaxation time \tau is employed as a regularization parameter. Previously reported results on MMPDEs have invariably employed a constant value of the parameter \tau. We extend this standard approach by incorporating a variable relaxation time that is calculated adaptively alongside the solution in order to regularize the mesh appropriately throughout a computation. We focus on singular problems involving self-similar blow-up to demonstrate the advantages of using a variable relaxation ime over a fixed one in terms of accuracy, stability and efficiency.

Keywords

multirate time integration delay differential equations multigrid methods

Cite

@article{arxiv.math/0602376,
  title  = {A moving mesh method with variable relaxation time},
  author = {Ali Reza Soheili and John M. Stockie},
  journal= {arXiv preprint arXiv:math/0602376},
  year   = {2010}
}

Comments

21 pages

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