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Semi-Lagrangian Approximation Schemes for Linear and Hamilton-Jacobi Equations

Falcone Maurizio Ferretti Roberto
Heftet / 2013 / Engelsk

Product details

ISBN
9781611973044
Published
2013-11-30
Publisher
Society for Industrial & Applied Mathematics,U.S.; Society for Industrial & Applied Mathematics,U.S.
Weight
593 gr
Height
229 mm
Width
152 mm
Age
U, 05
Language
Product language
Engelsk
Format
Product format
Heftet
Number of pages
332

Author
Falcone Maurizio
Ferretti Roberto

Biographical note

Maurizio Falcone is a Professor of Numerical Analysis in the Mathematics Department of Sapienza University of Rome. He is an associate editor for the journal Dynamic Games and Applications and was a member of the scientific board of the CASPUR Consortium for Scientific Computing (2002-2012) and on the steering committee of the ESF Network 'Optimization with PDE Constraints' (2008-2012). He is the author of about 60 papers in international journals. His main research areas are numerical analysis, PDEs, control theory and differential games, and image processing. Roberto Ferretti is an Associate Professor in Numerical Analysis at Roma Tre University. He is the author of about 35 research papers in international journals and proceedings, mostly on semi-Lagrangian schemes. His main research areas are numerical analysis, PDEs, control theory, image processing, and environmental fluid dynamics.

Semi-Lagrangian Approximation Schemes for Linear and Hamilton-Jacobi Equations

Falcone Maurizio Ferretti Roberto
Heftet / 2013 / Engelsk
Falcone Maurizio Ferretti Roberto
Heftet / 2013 / Engelsk
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This largely self-contained book provides a unified framework of semi-Lagrangian strategy for the approximation of hyperbolic PDEs, with a special focus on Hamilton-Jacobi equations. The authors provide a rigorous discussion of the theory of viscosity solutions and the concepts underlying the construction and analysis of difference schemes; they then proceed to high-order semi-Lagrangian schemes and their applications to problems in fluid dynamics, front propagation, optimal control, and image processing. The developments covered in the text and the references come from a wide range of literature.

Audience: Semi-Lagrangian Approximation Schemes for Linear and Hamilton-Jacobi Equations is written for advanced undergraduate and graduate courses on numerical methods for PDEs and for researchers and practitioners whose work focuses on numerical analysis and numerical methods for nonlinear hyperbolic PDEs.
Read more
This largely self-contained book provides a unified framework of semi-Lagrangian strategy for the approximation of hyperbolic PDEs, with a special focus on Hamilton–Jacobi equations. The authors provide a rigorous discussion of the theory of viscosity solutions and the concepts underlying the construction and analysis of difference schemes.
Read more
  • Preface
  • Notation
  • Chapter 1: Models and motivations
  • Chapter 2: Viscosity solutions of first-order PDEs
  • Chapter 3: Elementary building blocks
  • Chapter 4: Convergence theory
  • Chapter 5: First-order approximation schemes
  • Chapter 6: High-order SL approximation schemes
  • Chapter 7: Fluid Dynamics Chapter
  • 8: Control and games
  • Chapter 9: Front propagation
  • Bibliography
  • Index.
Read more

Related products

This largely self-contained book provides a unified framework of semi-Lagrangian strategy for the approximation of hyperbolic PDEs, with a special focus on Hamilton-Jacobi equations. The authors provide a rigorous discussion of the theory of viscosity solutions and the concepts underlying the construction and analysis of difference schemes; they then proceed to high-order semi-Lagrangian schemes and their applications to problems in fluid dynamics, front propagation, optimal control, and image processing. The developments covered in the text and the references come from a wide range of literature.

Audience: Semi-Lagrangian Approximation Schemes for Linear and Hamilton-Jacobi Equations is written for advanced undergraduate and graduate courses on numerical methods for PDEs and for researchers and practitioners whose work focuses on numerical analysis and numerical methods for nonlinear hyperbolic PDEs.
Read more
This largely self-contained book provides a unified framework of semi-Lagrangian strategy for the approximation of hyperbolic PDEs, with a special focus on Hamilton–Jacobi equations. The authors provide a rigorous discussion of the theory of viscosity solutions and the concepts underlying the construction and analysis of difference schemes.
Read more
  • Preface
  • Notation
  • Chapter 1: Models and motivations
  • Chapter 2: Viscosity solutions of first-order PDEs
  • Chapter 3: Elementary building blocks
  • Chapter 4: Convergence theory
  • Chapter 5: First-order approximation schemes
  • Chapter 6: High-order SL approximation schemes
  • Chapter 7: Fluid Dynamics Chapter
  • 8: Control and games
  • Chapter 9: Front propagation
  • Bibliography
  • Index.
Read more

Product details

ISBN
9781611973044
Published
2013-11-30
Publisher
Society for Industrial & Applied Mathematics,U.S.; Society for Industrial & Applied Mathematics,U.S.
Weight
593 gr
Height
229 mm
Width
152 mm
Age
U, 05
Language
Product language
Engelsk
Format
Product format
Heftet
Number of pages
332

Author
Falcone Maurizio
Ferretti Roberto

Biographical note

Maurizio Falcone is a Professor of Numerical Analysis in the Mathematics Department of Sapienza University of Rome. He is an associate editor for the journal Dynamic Games and Applications and was a member of the scientific board of the CASPUR Consortium for Scientific Computing (2002-2012) and on the steering committee of the ESF Network 'Optimization with PDE Constraints' (2008-2012). He is the author of about 60 papers in international journals. His main research areas are numerical analysis, PDEs, control theory and differential games, and image processing. Roberto Ferretti is an Associate Professor in Numerical Analysis at Roma Tre University. He is the author of about 35 research papers in international journals and proceedings, mostly on semi-Lagrangian schemes. His main research areas are numerical analysis, PDEs, control theory, image processing, and environmental fluid dynamics.

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