Real Time Optimization by Extremum Seeking Control
Kartik B. Ariyur, Miroslav Krstic
Résumé
An up-close look at the theory behind and application of extremum seeking Originally developed as a method of adaptive control for hard-to-model systems, extremum seeking solves some of the same problems as today's neural network techniques, but in a more rigorous and practical way. Following the resurgence in popularity of extremum-seeking control in aerospace and automotive engineering, Real-Time Optimization by Extremum-Seeking Control presents the theoretical foundations and selected applications of this method of real-time optimization.
Written by authorities in the field and pioneers in adaptive nonlinear control systems, this book presents both significant theoretic value and important practical potential. Filled with in-depth insight and expert advice, Real-Time Optimization by Extremum-Seeking Control:
- Develops optimization theory from the points of dynamic feedback and adaptation
- Builds a solid bridge between the classical optimization theory and modern feedback and adaptation techniques
- Provides a collection of useful tools for problems in this complex area
- Presents numerous applications of this powerful methodology
- Demonstrates the immense potential of this methodology for future theory development and applications
Real-Time Optimization by Extremum-Seeking Control is an important resource for both students and professionals in all areas of engineering—electrical, mechanical, aerospace, chemical, biomedical—and is also a valuable reference for practicing control engineers.
Contents
- Part I: Theory
- SISO Scheme and Linear Analysis
- Multiparameter Extremum Seeking
- Slope Seeking
- Discrete Time Extremum Seeking
- Nonlinear Analysis
- Limit Cycle Minimization
- Part II: Applications
- Anti-Lock Braking
- Bioreactors
- Formation Flight
- Combustion Instabilities
- Compressor Instabilities: Part I
- Compressor Instabilities: Part II
- Appendix A: Continuous Time Lemmas
- Appendix B: Discrete Time Lemas
- Appendix C: Aircraft Dynamics in Close Formation Flight
- Appendix D: Derivation of (118) and (1110)
- Appendix E: Derivation of the Critical Slopes
- Appendix F: Proof of Lemma 111
- Bibliography
- Index
L'auteur - Kartik B. Ariyur
is a research scientist at Honeywell Aerospace Electronic Systems in Minneapolis, Minnesota.
L'auteur - Miroslav Krstic
is Professor of Mechanical and Aerospace Engineering at the University of California, San Diego.
Caractéristiques techniques
| PAPIER | |
| Éditeur(s) | Wiley |
| Auteur(s) | Kartik B. Ariyur, Miroslav Krstic |
| Parution | 29/10/2003 |
| Nb. de pages | 234 |
| Format | 16 x 24 |
| Couverture | Broché |
| Poids | 480g |
| Intérieur | Noir et Blanc |
| EAN13 | 9780471468592 |
| ISBN13 | 978-0-471-46859-2 |
Avantages Eyrolles.com
Consultez aussi
- Les meilleures ventes en Graphisme & Photo
- Les meilleures ventes en Informatique
- Les meilleures ventes en Construction
- Les meilleures ventes en Entreprise & Droit
- Les meilleures ventes en Sciences
- Les meilleures ventes en Littérature
- Les meilleures ventes en Arts & Loisirs
- Les meilleures ventes en Vie pratique
- Les meilleures ventes en Voyage et Tourisme
- Les meilleures ventes en BD et Jeunesse
