# Search results for: Ronald H.W. Hoppe

Numerical Methods for Partial Differential Equations > 35 > 4 > 1477 - 1496

^{0}Interior Penalty Discontinuous Galerkin (C

^{0}IPDG) method for the numerical solution of a fourth‐order total variation flow problem that has been developed in part I of the paper. The proof relies on a nonlinear version of the Lax‐Milgram Lemma. It requires to establish that the nonlinear operator associated with the C

^{0}IPDG approximation...

Numerical Methods for Partial Differential Equations > 35 > 4 > 1458 - 1476

^{0}Interior Penalty Discontinuous Galerkin (C

^{0}IPDG) discretization in space. The C

^{0}IPDG approximation can be derived...

Lecture Notes in Computational Science and Engineering > Domain Decomposition Methods in Science and Engineering > Minisymposium: Heterogeneous Domain Decomposition with Applications in Multiphysics > 387-394

Lecture Notes in Computational Science and Engineering > Domain Decomposition Methods in Science and Engineering > Minisymposium: Domain Decomposition on Nonmatching Grids > 335-342

Mathematics and Computers in Simulation > 2012 > 82 > 10 > 1986-2003

Mathematics and Computers in Simulation > 2007 > 74 > 6 > 468-480

Nonlinear Analysis > 2007 > 66 > 3 > 704-722

*arbitrary*interfaces between the two different flow regimes. Here, the emphasis is on the efficient iterative solution of the coupled problem based on efficient solvers for the discrete...

Numerische Mathematik > 2006 > 103 > 2 > 251-266

Mathematics and Computers in Simulation > 2004 > 65 > 3 > 257-272

Materials Science in Semiconductor Processing > 2003 > 6 > 1-3 > 71-76

Numerische Mathematik > 1999 > 82 > 2 > 253-279

Applied Numerical Mathematics > 1997 > 23 > 1 > 97-117