Title of article
Quadratic maximum-entropy serendipity shape functions for arbitrary planar polygons
Author/Authors
Sukumar، نويسنده , , N.، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2013
Pages
15
From page
27
To page
41
Abstract
In this paper, we present the development of quadratic serendipity shape functions on planar convex and nonconvex polygons. Drawing on the work of Bompadre et al. (2012) [1] and Hormann and Sukumar (2008) [2], we adopt a relative entropy measure for signed (positive or negative) shape functions, with nodal prior weight functions that have the appropriate zero-set on the boundary of the polygon. We maximize the objective functional subject to the constraints for quadratic completeness proposed by Rand et al. (2013) [3]. Along an edge of a polygon, the approximation is identical to univariate Bernstein polynomials: the choice of the nodal prior weight function ensures that the shape functions satisfy a weak Kronecker-delta property on each edge. The shape functions are well-defined for arbitrary planar polygons without self-intersections. On using a modified numerical integration scheme, we show that the quadratic patch test is passed on polygonal meshes with convex and nonconvex elements. Numerical tests for the Poisson equation on self-similar trapezoidal meshes and quasiuniform polygonal meshes are presented, which reveal the sound accuracy of the method, and optimal rates of convergence in the L 2 norm and the H 1 seminorm are established.
Keywords
Relative entropy , Bernstein basis , Serendipity elements , Quadratic precision , Maximal Poisson-sampling , Maximum-entropy principle
Journal title
Computer Methods in Applied Mechanics and Engineering
Serial Year
2013
Journal title
Computer Methods in Applied Mechanics and Engineering
Record number
1596037
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