Title of article
A two-grid finite difference method for the primitive equations of the ocean Original Research Article
Author/Authors
T. Tachim Medjo، نويسنده , , R. Temam، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2008
Pages
23
From page
1034
To page
1056
Abstract
A two-level method is proposed for the finite difference approximation of a class of dissipative systems including the primitive equations of the ocean. The two-level (or multilevel) method amounts to solving a nonlinear problem on the single coarsest grid; subsequent approximations are generated on a succession of refined meshes by solving a linearized problem about the solution on the previous level. The stability analysis for an Euler-type scheme shows that the multilevel method can allow larger time steps than the traditional one-level methods. Some numerical simulations of the primitive equations of the ocean using this new multi-scale algorithm are presented to illustrate the method.
Keywords
Stability , Multilevel methods , Primitive equations
Journal title
Nonlinear Analysis Theory, Methods & Applications
Serial Year
2008
Journal title
Nonlinear Analysis Theory, Methods & Applications
Record number
860416
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