论文信息 - Self adaptive mesh generation for 3-D finite element calculation

Self adaptive mesh generation for 3-D finite element calculation

A three-dimensional, fully self-adaptive finite-element procedure is presented, based on the use of complementary variational principles. The use of the dual formulation ensures overall accuracy and provides a way of implementing localized mesh refinement. The initial problem meshing is achieved using a mesh generation technique based on the method of Delaunay tessellation. This work is an extension of techniques previously used successfully for two-dimensional representations. >

K. G. Mitchell | J. Penman

[1] William H. Frey,et al. An apporach to automatic three‐dimensional finite element mesh generation , 1985 .

[2] Mark S. Shephard,et al. Approaches to the Automatic Generation and Control of Finite Element Meshes , 1988 .

[3] Paul-Louis George,et al. Automatic 3D mesh generation with prescribed meshed boundaries (alternator) , 1990 .

[4] B. Joe. Three-dimensional triangulations from local transformations , 1989 .

[5] D. A. Field,et al. Implementing Watson's algorithm in three dimensions , 1986, SCG '86.

[6] J. Penman. Dual and complementary variational techniques for the calculation of electromagnetic fields , 1988 .

[7] Michael Sever,et al. DELAUNAY PARTITIONING IN THREE DIMENSIONS AND SEMICONDUCTOR MODELS , 1986 .

[8] J. Penman,et al. Self-adaptive mesh generation technique for the finite-element method , 1987 .