Browse content
Table of contents
Actions for selected chapters
- Full text access
- Book chapterAbstract only
1 - Presentation of the Formal Computation of Factorization
Pages 1-21 - Book chapterAbstract only
2 - Justification of the Factorization Computation
Pages 23-40 - Book chapterAbstract only
3 - Complements to the Model Problem
Pages 41-67 - Book chapterAbstract only
4 - Interpretation of the Factorization through a Control Problem
Pages 69-98 - Book chapterAbstract only
5 - Factorization of the Discretized Problem
Pages 99-126 - Book chapterAbstract only
6 - Other Problems
Pages 127-168 - Book chapterAbstract only
7 - Other Shapes of Domain
Pages 169-197 - Book chapterAbstract only
8 - Factorization by the QR Method
Pages 199-211 - Book chapterAbstract only
9 - Representation Formulas for Solutions of Riccati Equations
Pages 213-220 - Book chapterNo access
Appendix - Gaussian LU Factorization as a Method of Invariant Embedding
Pages 221-231 - Book chapterNo access
Bibliography
Pages 233-236 - Book chapterNo access
Index
Pages 237-238
About the book
Description
Factorization Method for Boundary Value Problems by Invariant Embedding presents a new theory for linear elliptic boundary value problems. The authors provide a transformation of the problem in two initial value problems that are uncoupled, enabling you to solve these successively. This method appears similar to the Gauss block factorization of the matrix, obtained in finite dimension after discretization of the problem. This proposed method is comparable to the computation of optimal feedbacks for linear quadratic control problems.
Factorization Method for Boundary Value Problems by Invariant Embedding presents a new theory for linear elliptic boundary value problems. The authors provide a transformation of the problem in two initial value problems that are uncoupled, enabling you to solve these successively. This method appears similar to the Gauss block factorization of the matrix, obtained in finite dimension after discretization of the problem. This proposed method is comparable to the computation of optimal feedbacks for linear quadratic control problems.
Key Features
- Develops the invariant embedding technique for boundary value problems
- Makes a link between control theory, boundary value problems and the Gauss factorization
- Presents a new theory for successively solving linear elliptic boundary value problems
- Includes a transformation in two initial value problems that are uncoupled
- Develops the invariant embedding technique for boundary value problems
- Makes a link between control theory, boundary value problems and the Gauss factorization
- Presents a new theory for successively solving linear elliptic boundary value problems
- Includes a transformation in two initial value problems that are uncoupled
Details
ISBN
978-1-78548-143-7
Language
English
Published
2016
Copyright
Copyright © 2016 Elsevier Ltd. All rights reserved.
Imprint
ISTE Press - Elsevier