Optimization of PML parameters for 2D Laplaces equation with antisymmetrical or symmetrical boundary conditions

Optimization of PML parameters for 2D Laplaces equation with antisymmetrical or symmetrical boundary conditions

Stať ve sborníku v databázi WoS či Scopus

A rigorous approach to the choice of parameters of the perfectly matched layer for 2D unbounded region of Laplace's field with antisymmetrical or symmetrical boundary conditions is presented in the paper. The PML approximates at its terminals the infinite 2D linear grid used to model surrounding space. Its parameters are chosen so as to minimize suitably chosen error function.

A rigorous approach to the choice of parameters of the perfectly matched layer for 2D unbounded region of Laplace's field with antisymmetrical or symmetrical boundary conditions is presented in the paper. The PML approximates at its terminals the infinite 2D linear grid used to model surrounding space. Its parameters are chosen so as to minimize suitably chosen error function.

Optimization, perfectly matched layer, finite element method

Optimization, perfectly matched layer, finite element method

DĚDEK, L., DĚDKOVÁ, J., VALSA, J.

16.09.2002

TU Graz

Graz, Rakousko

The 10th International IGTE Symposium on Numerical Field Calculation in Electrical Engineering.

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