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Hessian-based anisotropic mesh adaptation in domains with discrete boundaries
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Yu. V. Vassilevski
Published/Copyright:
2005
Black-box methodology for generating anisotropic adaptive tetrahedral meshes in domains with discrete boundaries is described. A new high-order reconstruction method for triangular surface meshes is proposed. The performance of the method for a model convection–diffusion problem is demonstrated.
Published Online: --
Published in Print: 2005-08-01
Copyright 2005, Walter de Gruyter
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- On the occasion of the 60th anniversary of Yuri A. Kuznetsov
- Finite element approach to the solution of shallow water equations
- Kinetic schemes and quasi-gas-dynamic system of equations
- Some algorithms for computing Chebyshev normalized first-kind polynomials by roots
- Functional-type a posteriori error estimates for mixed finite element methods
- Fast computation of Toeplitz forms and some multidimensional integrals
- Hessian-based anisotropic mesh adaptation in domains with discrete boundaries
Articles in the same Issue
- On the occasion of the 60th anniversary of Yuri A. Kuznetsov
- Finite element approach to the solution of shallow water equations
- Kinetic schemes and quasi-gas-dynamic system of equations
- Some algorithms for computing Chebyshev normalized first-kind polynomials by roots
- Functional-type a posteriori error estimates for mixed finite element methods
- Fast computation of Toeplitz forms and some multidimensional integrals
- Hessian-based anisotropic mesh adaptation in domains with discrete boundaries
