Mesh Generation: Application to Finite Elements, 2nd EditionISBN: 978-1-84821-029-5
Hardcover
848 pages
April 2008, Wiley-ISTE
 This is a Print-on-Demand title. It will be printed specifically to fill your order. Please allow an additional 15-20 days delivery time. The book is not returnable.
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Chapter 1. General definitions.
Chapter 2. Basic structures and algorithms.
Chapter 3. A comprehensive survey of mesh generation methods.
Chapter 4. Algebraic, PDE and multibloc methods.
Chapter 5. Quadtree-octree-based methods.
Chapter 6. Advancing front technique for mesh generation.
Chapter 7. Delaunay-based mesh generation methods.
Chapter 8. Other types of mesh generation methods.
Chapter 9. Delaunay admissibility, media axis, mid-surface and other applications.
Chapter 10. Quadratic forms and metrics.
Chapter 11. Differential geometry.
Chapter 12. Curve modeling.
Chapter 13. Surface modeling.
Chapter 14. Surface meshing and re-meshing.
Chapter 15. Meshing implicit curves and surfaces.
Chapter 16. Mesh modifications.
Chapter 17. Mesh optimization.
Chapter 18. Surface mesh optimization.
Chapter 19. A touch of finite elements.
Chapter 20. Mesh adaptation and h-methods.
Chapter 21. Mesh adaptation and p or hp-methods.
Chapter 22. Mobile or deformable meshes.
Chapter 23. Parallel computing and meshing issues.
Chapter 2. Basic structures and algorithms.
Chapter 3. A comprehensive survey of mesh generation methods.
Chapter 4. Algebraic, PDE and multibloc methods.
Chapter 5. Quadtree-octree-based methods.
Chapter 6. Advancing front technique for mesh generation.
Chapter 7. Delaunay-based mesh generation methods.
Chapter 8. Other types of mesh generation methods.
Chapter 9. Delaunay admissibility, media axis, mid-surface and other applications.
Chapter 10. Quadratic forms and metrics.
Chapter 11. Differential geometry.
Chapter 12. Curve modeling.
Chapter 13. Surface modeling.
Chapter 14. Surface meshing and re-meshing.
Chapter 15. Meshing implicit curves and surfaces.
Chapter 16. Mesh modifications.
Chapter 17. Mesh optimization.
Chapter 18. Surface mesh optimization.
Chapter 19. A touch of finite elements.
Chapter 20. Mesh adaptation and h-methods.
Chapter 21. Mesh adaptation and p or hp-methods.
Chapter 22. Mobile or deformable meshes.
Chapter 23. Parallel computing and meshing issues.
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