[논문]Mesh Simplification and Adaptive LOD for Finite Element Mesh Generation

Date, Hiroaki; Kanai, Satoshi; Kishinami, Takeshi; Nishigaki, Ichiro

Mesh Simplification and Adaptive LOD for Finite Element Mesh Generation 원문보기

International Journal of CAD/CAM, v.6 no.1, 2006년, pp.73 - 79

Date, Hiroaki (Graduate School of Information Science and Technology, Hokkaido University) , Kanai, Satoshi (Graduate School of Information Science and Technology, Hokkaido University) , Kishinami, Takeshi (Graduate School of Information Science and Technology, Hokkaido University) , Nishigaki, Ichiro (Hitachi Ltd. Mechanical Engineering Research Laboratory)

Abstract ▼ AI-Helper

In this paper, we propose a new triangular finite element mesh generation method based on simplification of high-density mesh and adaptive Level-of-Detail (LOD) methods for efficient CAE. In our method, mesh simplification is used to control the mesh properties required for FE mesh, such as the number of triangular elements, element shape quality and size while keeping the specified approximation tolerance. Adaptive LOD methods based on vertex hierarchy according to curvature and region of interest, and global LOD method preserving density distributions are also proposed in order to construct a mesh more appropriate for CAE purpose. These methods enable efficient generation of FE meshes with properties appropriate for analysis purpose from a high-density mesh. Finally, the effectiveness of our approach is shown through evaluations of the FE meshes for practical use.

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제안 방법

Comparing with existing simplification methods, the quality of mesh and the other important properties for analysis in the simplified mesh can be explicitly controlled in our method by specifying thresholds for tolerance τTL, stretch τST, element size τSZ and valence τVI.
In this paper, a new FE mesh generation method from triangular mesh using mesh simplification and adaptive LOD was proposed.

이론/모형

First, mesh curvature at each vertex of input high-density mesh is calculated using the curvature evaluation method (In our implementation, we adopt the method of Alliez [1]), and maximum curvature Ki is stored at each vertex.

참고문헌 (15)

Alliez, P., Cohen-Steiner, D., Devillers, O., Levy, B. and Desbrun, M. (2003), Anisotropic Polygonal Remeshing, Proceedings of SIGGRAPH2003, 485-493
Bechet, E., Cuilliere, J.C. and Trochu, F. (2002), Generation of a finite element MESH from stereolithography (STL) files, Computer-Aided-Design, 34, 1-17

상세보기
Bianconi, F. (2002), Bridging the gap between CAD and CAE using STL files, International Journal of CAD/CAM, 2(1), 55-67

원문보기 상세보기
Date, H., Kanai, S. and Kishinami, T. (2004), Mesh Quality Improvement using Mesh Subdivision and Simplification, Proceedings of 3D Modelling 2004 (NUM3D)
Floater, M.S. (1997), Parameterization and Smooth Approximation of Surface Triangulations, Computer Aided Geometric Design, 14(3), 231-250

상세보기
Floriani, L.D., Magillo, P., Morando, F. and Puppo, E. (2000), Dynamic View-Dependent Multiresolution on a Client-Server Architecture, Computer-Aided-Design, 32, 805-823

상세보기
Garland, M. and Heckbert, P.S. (1997), Surface Simplification using Quadric Error Metrics, Proceedings of SIGGRAPH 97, 209-216
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Karabassi, E.A., Papaioannou, G., Fretzagias, C. and Theoharis, T. (2003), Exploiting multiresolution models to accelerate ray tracing, Computer & Graphics, 27, 91-98

상세보기
Luebke, D.,, Reddy, M., Cohen, J.D., Varshney, A., Watson, B. and Huebner, R. (2003), LEVEL of DETAIL FOR 3D GRAPHICS, Morgan Kaufmann
Sheffer, A. and Sturler, E.D. (2001), Parameterization of faceted surfaces for meshing using anglebased flattening, Engineering with Computers, 17(3), 326-337

상세보기
Sifri, O., Sheffer, A. and Gotsman, C. (2003), Geodesic-based Surface Remeshing, Proceedings of the 12th International Meshing Roundtable, 189-199
Taubin, G., Gueziec, A., Hom, W. and Lazarus, F. (1998), Progressive Forest Split Compression, Proceedings of the 25th annual conference on computer graphics and interactive techniques, 123- 132
Topping, B.H.V., Muylle, J., Ivanyi, P., Putanowicz, R. and Cheng, B. (2004), Finite Element Mesh Generation, SAXE-COUBURG PUBLICATIONS

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Mesh Simplification and Adaptive LOD for Finite Element Mesh Generation 원문보기

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Mesh Simplification and Adaptive LOD for Finite Element Mesh Generation 원문보기

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