Optimal Control, 2nd Edition [Hardcover]

Frank L. Lewis (Author), Vassilis L. Syrmos (Author)

Book Description

ISBN-10: 0471033782 | ISBN-13: 978-0471033783 | Publication Date: October 20, 1995 | Edition: 2

This new, updated edition of Optimal Control reflects major changes that have occurred in the field in recent years and presents, in a clear and direct way, the fundamentals of optimal control theory. It covers the major topics involving measurement, principles of optimality, dynamic programming, variational methods, Kalman filtering, and other solution techniques. To give the reader a sense of the problems that can arise in a hands-on project, the authors have included new material on optimal output feedback control, a technique used in the aerospace industry. Also included are two new chapters on robust control to provide background in this rapidly growing area of interest. Relations to classical control theory are emphasized throughout the text, and a root-locus approach to steady-state controller design is included. A chapter on optimal control of polynomial systems is designed to give the reader sufficient background for further study in the field of adaptive control.

The authors demonstrate through numerous examples that computer simulations of optimal controllers are easy to implement and help give the reader an intuitive feel for the equations. To help build the reader's confidence in understanding the theory and its practical applications, the authors have provided many opportunities throughout the book for writing simple programs.

Optimal Control will also serve as an invaluable reference for control engineers in the industry. It offers numerous tables that make it easy to find the equations needed to implement optimal controllers for practical applications. All simulations have been performed using MATLAB and relevant Toolboxes.

Optimal Control assumes a background in the state-variable representation of systems; because matrix manipulations are the basic mathematical vehicle of the book, a short review is included in the appendix.

A lucid introductory text and an invaluable reference, Optimal Control will serve as a complete tool for the professional engineer and advanced student alike.

As a superb introductory text and an indispensable reference, this new edition of Optimal Control will serve the needs of both the professional engineer and the advanced student in mechanical, electrical, and aerospace engineering. Its coverage encompasses all the fundamental topics as well as the major changes of recent years, including output-feedback design and robust design. An abundance of computer simulations using MATLAB and relevant Toolboxes is included to give the reader the actual experience of applying the theory to real-world situations. Major topics covered include:
* Static Optimization
* Optimal Control of Discrete-Time Systems
* Optimal Control of Continuous-Time Systems
* The Tracking Problem and Other LQR Extensions
* Final-Time-Free and Constrained Input Control
* Dynamic Programming
* Optimal Control for Polynomial Systems
* Output Feedback and Structured Control
* Robustness and Multivariable Frequency-Domain Techniques

Editorial Reviews

From the Back Cover

This new, updated edition of Optimal Control reflects major changes that have occurred in the field in recent years and presents, in a clear and direct way, the fundamentals of optimal control theory. It covers the major topics involving measurement, principles of optimality, dynamic programming, variational methods, Kalman filtering, and other solution techniques. To give the reader a sense of the problems that can arise in a hands-on project, the authors have included new material on optimal output feedback control, a technique used in the aerospace industry. Also included are two new chapters on robust control to provide background in this rapidly growing area of interest. Relations to classical control theory are emphasized throughout the text, and a root-locus approach to steady-state controller design is included. A chapter on optimal control of polynomial systems is designed to give the reader sufficient background for further study in the field of adaptive control.

The authors demonstrate through numerous examples that computer simulations of optimal controllers are easy to implement and help give the reader an intuitive feel for the equations. To help build the reader's confidence in understanding the theory and its practical applications, the authors have provided many opportunities throughout the book for writing simple programs.

Optimal Control will also serve as an invaluable reference for control engineers in the industry. It offers numerous tables that make it easy to find the equations needed to implement optimal controllers for practical applications. All simulations have been performed using MATLAB and relevant Toolboxes.

Optimal Control assumes a background in the state-variable representation of systems; because matrix manipulations are the basic mathematical vehicle of the book, a short review is included in the appendix.

A lucid introductory text and an invaluable reference, Optimal Control will serve as a complete tool for the professional engineer and advanced student alike.

As a superb introductory text and an indispensable reference, this new edition of Optimal Control will serve the needs of both the professional engineer and the advanced student in mechanical, electrical, and aerospace engineering. Its coverage encompasses all the fundamental topics as well as the major changes of recent years, including output-feedback design and robust design. An abundance of computer simulations using MATLAB and relevant Toolboxes is included to give the reader the actual experience of applying the theory to real-world situations. Major topics covered include:

• Static Optimization
• Optimal Control of Discrete-Time Systems
• Optimal Control of Continuous-Time Systems
• The Tracking Problem and Other LQR Extensions
• Final-Time-Free and Constrained Input Control
• Dynamic Programming
• Optimal Control for Polynomial Systems
• Output Feedback and Structured Control
• Robustness and Multivariable Frequency-Domain Techniques

About the Author

FRANK L. LEWIS is the Moncrief-O'Donnell Professor at the Automation and Robotics Research Institute of the University of Texas at Arlington. Dr. Lewis is the author/coauthor of 80 journal papers and the books, Optimal Estimation; Applied Optimal Control and Estimation; Aircraft Control and Simulation; Control of Robot Manipulators; and Robot Control. He is associate editor of Circuits, Systems, and Signal Processing. The recipient of numerous awards for research and teaching, Dr. Lewis is also a Fellow of the IEEE.

VASSILIS L. SYRMOS is an Associate Professor in the Department of Electrical Engineering at the University of Hawaii at Manoa. Dr. Syrmos's interests include geometric and algebraic approaches in linear system theory and numerical methods for feedback design in control systems. His research is currently supported by the National Science Foundation and the Advanced Research Projects Agency.

Product Details

• Hardcover: 560 pages
• Publisher: Wiley-Interscience; 2 edition (October 20, 1995)
• Language: English
• ISBN-10: 0471033782
• ISBN-13: 978-0471033783
• Product Dimensions: 9.5 x 6.4 x 1.2 inches
• Shipping Weight: 1.9 pounds (View shipping rates and policies)
• Average Customer Review: 2.8 out of 5 stars  See all reviews (4 customer reviews)
• Amazon Best Sellers Rank: #665,544 in Books (See Top 100 in Books)

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Customer Reviews

Most Helpful Customer Reviews

5 of 6 people found the following review helpful:

4.0 out of 5 stars Great book on optimal controls, June 15, 2000

By 

P. Wung "Engineering is my vocation, volleyba... (Tipp City, OH USA) - See all my reviews
(VINE VOICE)    (REAL NAME)   

This review is from: Optimal Control, 2nd Edition (Hardcover)

I had the pleasure of having taken my control courses at Georgia Tech while the author, Frank Lewis was a professor there. He was probably one of the best professors in this area amongst a stellar group of control professors. He explanations and presentation of the topics were concise, clear, and extremely applicable. These same traits are present in this book. One of the main knocks against control theorists is that they tend to refrain from using real world examples to illustrate their point. Dr. Lewis is quite the opposite, he believes that the real world problem is key to understanding the theory and he is never shy in using those examples. The number of examples may be a problem here, afterall, students live and die by the worked problem to get to understanding.

This book is an excellent introductory guide to the fascinating world of optimal controls.

2 of 2 people found the following review helpful:

3.0 out of 5 stars Good text, April 10, 2007

By 

G. L. Sinsley (Pleasant Gap, PA United States) - See all my reviews
(REAL NAME)   

Amazon Verified Purchase

This review is from: Optimal Control, 2nd Edition (Hardcover)

This is the first book on optimal control I've read, so I can't compare it to others. The writing is dry (just like any textbook). But there are a lot of good examples, especially the Matlab examples. There is also the level of mathematical rigor that you'd hope to see in any controls text. One thing I think it lacks is an appendix with a short review of linear systems theory; I have to keep referring back to my linear systems book for important formulas.

4 of 5 people found the following review helpful:

1.0 out of 5 stars Horrible typos, March 10, 2007

By 

M. Wang - See all my reviews

This review is from: Optimal Control, 2nd Edition (Hardcover)

Horrible typos, I found 4 on 1 page alone. Example 9.4.2 has an entry missing out of the A matrix.