Bibliography


Important:  Under U.S. and international copyright law, Ansys, Inc. is unable to distribute copies of the papers listed in the bibliography, other than those published internally by Ansys, Inc. Use your library or a document delivery service to obtain copies of copyrighted papers.


[1] T. J. Baker. Three Dimensional Mesh Generation By Triangulation of Arbitrary Point Sets. Technical Report AIAA-87-1124. American Institute of Aeronautics and Astronautics. 1987.

[2] T. J. Barth. Three-Dimensional Unstructured Grid Generation via Incremental Insertion and Local Optimization In Software Systems for Surface Modeling and Grid Generation. Langley Research Center, Hampton, Virginia, NASA Conference Publication. 3143. April 1992.

[3] K. R. Blake. A 3D Delaunay Unstructured Grid Generator Applied to Trains, Planes, and Automobiles. Technical Report AIAA93-0673. American Institute of Aeronautics and Astronautics. 1993.

[4] A. Bowyer. Computing Dirichlet Tessellations. The Computer Journal. 24(2). 162–166. May 1981.

[5] M. Garland. Surface Simplification Using Quadric Error Metrics. 24th Annual Conference on Computer Graphics and Interactive Techniques. 209–216. 1997.

[6] D. G. Holmes. The Generation of Unstructured Triangular Meshes Using Delaunay Triangulation. J. Hauser. Numerical Grid Generation in Computational Fluid Mechanics 88. 643–652. Pineridge Press Limited. 1988.

[7] Y. Kallinderis. Hybrid Prismatic/Tetrahedral Grid Generation for Complex Geometries Technical Report AIAA-95-0211. AIAA 33rd Aerospace Sciences Meeting and Exhibit Reno, Nevada. 1995.

[8] Y. Kallinderis. Prismatic Grid Generation for Three-Dimensional Complex Geometries. AIAA Journal. 31(10). 1850–1856. October 1993.

[9] L. Kobbelt. A Shrink Wrapping Approach to Remeshing Polygonal Surfaces. Computer Graphics Forum. 18(3). 119–130. 1999.

[10] C. L. Lawson. Properties of n-dimensional Triangulations. Computer-Aided Geometric Design. 3. 231–246. December 1986.

[11] R. Löhner. Generation of Three-Dimensional Unstructured Grids by the Advancing Front Method Technical Report, AIAA-88-0515. American Institute of Aeronautics and Astronautics. 1988.

[12] D. J. Mavriplis. Adaptive Mesh Generation for Viscous Flows Using Delaunay Triangulation. Journal of Computational Physics. 90(12). 271–291. October 1990.

[13] J. D. Müller. A Frontal Approach for Node Generation in Delaunay Triangulations. International Journal For Numerical Methods in Fluids. 17(3). 241–255. August 1993.

[14] S. Pirzadeh. Unstructured Viscous Grid Generation by the Advancing-Layers Method. AIAA Journal. 32(8). 1735–1737. August 1994.

[15] S. Pirzadeh. Three-Dimensional Unstructured Viscous Grids by the Advancing-Layers Method. AIAA Journal. 34(1). 43–49. January 1996.

[16] W. R. Quadros. Finite Element Mesh Sizing for Surfaces Using Skeleton. In Proc 13th Int Meshing Roundtable. 2004.

[17] J. Z. Wang. An Adaptive Cartesian Grid Generation Method for ‘Dirty’ Geometry. International Journal For Numerical Methods in Fluids. 39. 703–717. 2002.

[18] D. F. Watson. Computing the n-dimensional Delaunay tessellation with application to Voronoi polytopes. The Computer Journal. 24(2). 167–172. May 1981.

[19] N. P. Weatherill. A Method For Generating Irregular Computational Grids in Multiply Connected Planar Domains. International Journal For Numerical Methods in Fluids. 8(2). 181–197 . February 1988.

[20] M. A. Yerry. Automatic Three-Dimensional Mesh Generation by the Modified-Octree Technique. International Journal for Numerical Methods in Engineering. 20. 1965–1990. 1984.

[21] J. Zhu. Background Overlay Grid Size Functions. In Proc 11th Int Meshing Roundtable. 2002.