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A boundary meshless method with shape functions computed from the PDE

  • Autores: Djédjé Sylvain Zézé, M. Potier-Ferry, Noureddine Damil
  • Localización: Engineering analysis with boundary elements, ISSN 0955-7997, Vol. 34, Nº. 8, 2010, págs. 747-754
  • Idioma: inglés
  • Texto completo no disponible (Saber más ...)
  • Resumen
    • This paper presents a new meshless method using high degree polynomial shape functions. These shape functions are approximated solutions of the partial differential equation (PDE) and the discretization concerns only the boundary. If the domain is split into several subdomains, one has also to discretize the interfaces. To get a true meshless integration-free method, the boundary and interface conditions are accounted by collocation procedures. It is well known that a pure collocation technique induces numerical instabilities. That is why the collocation will be coupled with the least-squares method. The numerical technique will be applied to various second order PDE's in 2D domains. Because there is no integration and the number of shape functions does not increase very much with the degree, high degree polynomials can be considered without a huge computational cost. As for instance the p-version of finite elements or some well established meshless methods, the present method permits to get very accurate solutions.


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