Reverse Engineering in Control Design e-bog
1313,81 DKK
(inkl. moms 1642,26 DKK)
Reverse Engineering in Control Design proposes practical approaches to building a standard H-infinity problem taking into account an initial controller. Such approaches allow us to mix various control objectives and to initialize procedures for a fixed-structure controller design. They are based on the Observer-Based Realization (OBR) of controllers. The interest of OBR from the controller impl...
E-bog
1313,81 DKK
Forlag
Wiley-ISTE
Udgivet
5 marts 2013
Genrer
Mechanical engineering and materials
Sprog
English
Format
epub
Beskyttelse
LCP
ISBN
9781118602621
Reverse Engineering in Control Design proposes practical approaches to building a standard H-infinity problem taking into account an initial controller. Such approaches allow us to mix various control objectives and to initialize procedures for a fixed-structure controller design. They are based on the Observer-Based Realization (OBR) of controllers. The interest of OBR from the controller implementation point of view is detailed and highlighted in this book through academic examples. An open-source toolbox is available to implement these approaches in Matlab . Throughout the book academic applications are proposed to illustrate the various basic principles. These applications have been chosen by the author for their pedagogic contents and demo files and embedded Matlab functions can be downloaded so readers can run these illustrations on their personal computers. Contents 1. Observer-based Realization of a Given Controller. 2. Cross Standard Form and Reverse Engineering. 3. Reverse Engineering for Mechanical Systems. Appendix 1. A Preliminary Methodological Example. Appendix 2. Discrete-time Case. Appendix 3. Nominal State-feedback for Mechanical Systems. Appendix 4. Help of Matlab Functions. About the Authors Daniel Alazard is Professor in System Dynamics and Control at Institut Sup rieur de l'A ronautique et de l Espace (ISAE), Toulouse, France SUPAERO Graduate Program. His main research interests concern robust control, flexible structure control and their applications to various aerospace systems.