A review of moving mesh methods for the numerical solution of PDEs

Sloan, D.M. (2002) A review of moving mesh methods for the numerical solution of PDEs. In: Applied Mathematics Seminar, 2003-06-13.

Abstract

Accurate modelling of scientific problems that are governed by partial differential equations (PDEs) with steep solution regions often involves high computational cost if a uniform mesh is used. In recent years a family of methods---moving mesh methods---has been developed that adapts the mesh to features of the computed solution. The nodal density is high in regions of high solution variation and low in regions where the solution variation is small. The talk describes moving mesh methods that are based on the idea of equidistribution (see, for example, W Huang and R D Russell, SIAM J Sci Comput 20 (1999) 998-1015). These methods utilise a PDE to evolve the mesh in a manner that accurately captures sharp fronts with a relatively small number of mesh points. The complete solution process involves the combined numerical solution of a moving mesh PDE and the governing system of physical PDEs. Numerical results are referenced to demonstrate the effectiveness of the methods.

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• Item metadata

  Item type:	Conference or Workshop Item(Paper)
  ID code:	2101
  Dates:	Date Event 2002 Published
  Notes:	University of Strathclyde Mathematics Research Report
  Subjects:	Science > Mathematics
  Department:	Faculty of Science > Mathematics and Statistics
  Depositing user:	Strathprints Administrator
  Date deposited:	15 Nov 2006
  Last modified:	09 Apr 2024 04:49
  URI:	https://strathprints.strath.ac.uk/id/eprint/2101