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Level set methods and fast marching methods :

By: Material type: TextTextPublication details: New York: Cambridge University Press, 2008.Description: xx, 378p. : illISBN:
  • 9780521645577
Subject(s): DDC classification:
  • 515.353 SET
Contents:
Contents: 1. Formulation of Interface Propagation 2. Theory of Curve and Surface Evolution 3. Viscosity Solutions and Hamilton-Jacobi Equations 4. Traditional Techniques for Tracking Interfaces 5. Hyperbolic Conservation Laws 6. Basic Algorithms for Interface Evolution 7. Efficient Schemes: the Narrow Band Level Set Method 8. Efficient Schemes: Fast Marching Methods 9. Triangulated Versions of Level Set Methods 10. Triangulated Fast Marching Methods 11. Constructing Extension Velocities 12. Tests of Basic Methods 13. Building Level Set and Fast Marching Applications 14. Geometry 15. Grid Generation 16. Image Enhancement and Noise Removal 17. Computer Vision: Shape Detection and Recognition 18. Combustion, Solidification, Fluids, and Electromigration 19. Computational Geometry and Computer-aided Design 20. Optimality and First Arrivals 21. Etching and Deposition in Microchip Fabrication 22. Summary
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Item type Current library Collection Call number Status Date due Barcode
Books Books Mahindra University VNLRC General Stacks Maths 515.353 SET (Browse shelf(Opens below)) Available 13453

Contents:
1. Formulation of Interface Propagation
2. Theory of Curve and Surface Evolution
3. Viscosity Solutions and Hamilton-Jacobi Equations
4. Traditional Techniques for Tracking Interfaces
5. Hyperbolic Conservation Laws
6. Basic Algorithms for Interface Evolution
7. Efficient Schemes: the Narrow Band Level Set Method
8. Efficient Schemes: Fast Marching Methods
9. Triangulated Versions of Level Set Methods
10. Triangulated Fast Marching Methods
11. Constructing Extension Velocities
12. Tests of Basic Methods
13. Building Level Set and Fast Marching Applications
14. Geometry
15. Grid Generation
16. Image Enhancement and Noise Removal
17. Computer Vision: Shape Detection and Recognition
18. Combustion, Solidification, Fluids, and Electromigration
19. Computational Geometry and Computer-aided Design
20. Optimality and First Arrivals
21. Etching and Deposition in Microchip Fabrication
22. Summary

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