A novel direct resolution method for coupled systems in finite element analysis

• Youcef Boutora ^[1] ; Noureddine Takorabet ^[2]
  1. [1] Université de Tizi Ouzou

     Université de Tizi Ouzou

     Argelia

     
  2. [2] University of Lorraine

     University of Lorraine

     Arrondissement de Nancy, Francia

     
• Localización: Compel: International journal for computation and mathematics in electrical and electronic engineering, ISSN 0332-1649, Vol. 39, Nº Extra 5, 2020, págs. 1271-1280
• Idioma: inglés
• Enlaces
  • Texto completo
• Resumen

  • Purpose – This paper aims to propose a novel direct method for indefinite algebraic linear systems. It is well adapted for sparse linear systems, such as those of two-dimensional (2-D) finite elements problems, especially for coupled systems.

    Design/methodology/approach – The proposed method is developed on an example of an indefinite symmetric matrix. The algorithmof the method is given next, and a comparison between the numbers of operations required by the method and the Cholesky method is also given. Finally, an application on a magnetostatic problem for classicalmethods (Gauss and Cholesky) shows the relative efficiency of the proposedmethod.

    Findings – The proposed method can be used advantageously for 2-D finite elements in stepping methods without using a block decomposition of matrices.

    Research limitations/implications – This method is advantageous for direct linear solving for 2-D problems, but it is not recommended at this time for three-dimensional problems.

    Originality/value – The proposed method is the first direct solver for algebraic linear systems proposed since more than a half century. It is not limited for symmetric positive systems such as many of direct and iterative methods.