Um estudo de métodos de suavização para o multigrid algébrico baseado em Wavelets

Fabio Henrique Pereira; Silvio Ikuyo Nabeta

doi:10.5585/exacta.v7i2.1616

Authors

Fabio Henrique Pereira Uninove, SP
Silvio Ikuyo Nabeta Escola Politécnica da Universidade de São Paulo

DOI:

https://doi.org/10.5585/exacta.v7i2.1616

Keywords:

Multigrid Algébrico. Métodos de Suavização.Transformada Wavelet Discreta.

Abstract

The Wavelet-based Algebraic Multigrid method was proposed for the solution of linear systems issued from Finite Element applications. Like in any multilevel approach, it is very important to ensure an efficient interaction between the smoother and the coarse-grid correction in the WAMG. In contrast to the standard algebraic multigrid approach, that uses some simple relaxation scheme and enforces the interaction by choosing the coarser levels and the transfer operators appropriately, the WAMG relies more strongly on the smoothing method. In order to better understand this smoother dependency, an investigation about the requirements over smoother methods in wavelet-based algebraic multigrid is accomplished in this work. Some variants of the Gauss-Seidel and Successive Over Relaxation smoothers were tested and the magnitudes of the frequency components of the error before and after the smoother application were analyzed for an elliptic problem.

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Author Biographies

Fabio Henrique Pereira, Uninove, SP

Professor/Pesquisador do Programa de Mestrado em Engenharia de Produção da Universidade Nove de Julho - Uninove

Silvio Ikuyo Nabeta, Escola Politécnica da Universidade de São Paulo

Professor/Pesquisador do Departamento de Engenharia de Energia e Automação Elétricas da Escola Politécnica da Universidade de São Paulo (PEA/EPUSP). Coordenador do Grupo de Máquinas e Acionamentos Elétricos (GMAcq).