Mesh Generation
Application to Finite Elements
2nd Edition
Published on 24. April 2008
Book
Hardback
848 pages
978-1-84821-029-5 (ISBN)
Description
The aim of the second edition of this book is to provide a comprehensive survey of the different algorithms and data structures useful for triangulation and meshing construction. In addition, several aspects are given full coverage, such as mesh modification tools, mesh evaluation criteria, mesh optimization, adaptive mesh construction and parallel meshing techniques.
This new edition has been comprehensively updated and also includes a new chapter on mobile or deformable meshes.
This new edition has been comprehensively updated and also includes a new chapter on mobile or deformable meshes.
More details
Edition
2nd edition
Language
English
Place of publication
London
United Kingdom
Target group
College/higher education
Dimensions
Height: 236 mm
Width: 163 mm
Thickness: 53 mm
Weight
1882 gr
ISBN-13
978-1-84821-029-5 (9781848210295)
Copyright in bibliographic data and cover images is held by Nielsen Book Services Limited or by the publishers or by their respective licensors: all rights reserved.
Schweitzer Classification
Other editions
Additional editions
E-Book
03/2013
2nd Edition
Wiley-ISTE
€229.99
Available for download
E-Book
01/2010
2nd Edition
Wiley-ISTE
€229.99
Available for download
Persons
Pascal Jean Frey, UPMC Paris 6, France Paul-Louis George, INRIA, France
Content
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.