On the construction of second-to-fourth-order accurate approximations of spatial derivatives on an arbitrary set of points

D. A. Shirobokov

Dorodnicyn Computing Center, Russian Academy of Sciences, ul. Vavilova 40, Moscow, 119991, Russia

Abstract: The method of undetermined coefficients generates a set of fixed-order approximations of spatial derivatives on an irregular stencil. An additional condition is proposed that singles out a unique scheme from this set. The resulting second-to-fourth order accurate approximations are applied to solving Poisson's and the biharmonic equations. The bending of a plate supported by an edge, the nonlinear bending of a circular plate, and two-dimensional problems in solid mechanics are discussed. A method is proposed for constructing oriented approximations, which are validated by solving an advection equation.

Key words: Poisson's equation, biharmonic equation, meshless methods, approximation of spatial derivatives.

UDC: 519.634

Received: 30.01.2004
Revised: 26.01.2006

 English version: Computational Mathematics and Mathematical Physics, 2006, 46:6, 1023–1043

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