Description

Features

The most up-to-date presentation of the material, including developments from the last 30 years. The authors:

·         Provide significant coverage on two-degree-of-freedom control

·         Add Kharitonov robust stability results of polynomials

·         Discuss in detail the effects of non-minimum phase zeros on the system performance and their relationship with overshoot and undershoot

·         Introduce a Routh table method for computing the 2-norm of a signal

·         In the frequency domain analysis, the authors introduce a completely new method of visualizing frequency responses from the Riemann sphere, in addition to the classical Bode diagram, Nyquist plot, and Nichols chart.

·         Remove the material on the signal flow graph covered in many classical control textbooks

An emphasis on analytic thinking and motivation:

• Analytic Skills: This text helps students learn how to develop these important skills.  For example, in the chapter on Root-Locus (Chapter 5), instead of introducing the detailed techniques of drawing an accurate root locus, the authors focus on how to quickly sketch a root locus with minimum effort indicating the trend of the root loci to help the analysis and design of a control system, leaving the detailed work to modern computational tools.
• Physical Meaning and Motivation: Qui and Zhou promote the idea that every concept has a physical meaning and motivation behind it, not just a mathematical concept or formula. For example in Chapter 6, Section 6.1 the authors motivate frequency response with many meaningful examples.

An emphasis on fundamental limitation and tradeoff in control system design.

An author-maintained website for updating, improving, and expanding material related to the book.

Table of Contents

1 Overview 1

1.1 Introduction

1.2 Basic Concepts

1.3 Basic Structures of Feedback Systems

1.4 About This Book

1.5 Problems

1.6 Notes and References

2 Modeling and Simulation 15

2.1 Modeling Based on First Principles

2.1.1 Electrical systems

2.1.2 Mechanical systems

2.1.3 Electromechanical systems

2.2 State Space Model and Linearization

2.3 Transfer Functions and Impulse Responses

2.4 Simplifying Block Diagrams

2.5 Transfer FunctionModeling

2.6 MATLAB Manipulation of LTI Systems

2.7 Simulation and Implementation of Systems

2.7.1 Hardware simulation and implementation

2.7.2 Software simulation and implementation

2.8 MISO and SIMO Systems

2.9 Modeling of Closed-Loop Systems

2.10 Case Studies

2.10.1 Ball and beam system

2.10.2 Inverted pendulum system

2.11 Problems

2.12 Notes and References

3 Stability and Stabilization

3.1 Concept of Stability

3.2 Routh Criterion

3.3 Other Stability Criteria

3.4 Robust Stability

3.5 Stability of Closed-Loop Systems

3.6 Pole PlacementDesign

3.7 All Stabilizing Controllers*

3.8 All Stabilizing 2DOF Controllers*

3.9 Case Studies

3.9.1 Ball and beamsystem

3.9.2 Inverted pendulum system

3.10 Problems

3.11 Notes and References

4 Time Domain Analysis

4.1 Responses to Typical Input Signals

4.2 Step Response Analysis

4.3 Dominant Poles and Zeros

4.4 Steady-State Response and System Type

4.5 InternalModel Principle

4.6 Undershoot

4.7 Overshoot

4.8 Time-Domain Signal and System Norms

4.9 Computation of the Time Domain 2-Norm

4.10 Problems

4.11 Notes and References

5 Root Locus Method

5.1 Root Locus Techniques

5.2 Derivations of Root Locus Rules*

5.3 Effects of Adding Poles and Zeros

5.4 Phase-Lag Controller

5.5 PI Controller

5.6 Phase-Lead Controller

5.7 PD Controller

5.8 Lead-Lag or PID Controller

5.9 2DOF Controllers

5.10 General Guidelines in Root Locus Design

5.11 Complementary Root Locus

5.12 Strong Stabilization

5.13 Case Study — Ball and Beam System

5.14 Problems

5.15 Notes and References

6 Frequency Domain Analysis

6.1 Frequency Response

6.2 Bode Diagrams

6.3 Nyquist Stability Criterion

6.4 Gain Margin and Phase Margin

6.5 Closed-loop Frequency Response

6.6 Nichols Chart

6.7 Riemann Plot

6.8 Problems

6.9 Notes and References

7 Classical Design in Frequency Domain

7.1 Phase-Lag Controller

7.2 PI Controller

7.3 Phase-Lead Controller

7.4 PD Controller

7.5 Lead-Lag or PID Controller

7.6 Ziegler and Nichols Tuning Rules

7.7 Derivative Control

7.8 Alternative PID Implementation

7.9 Integral Control and Antiwindup

7.10 Design by Loopshaping

7.11 Bode’s Gain and Phase Relation

7.12 Bode’s Sensitivity Integral

7.13 Problems

7.14 Notes and References

8 Performance and Robustness

8.1 Frequency Domain 2-Norm of Signals and Systems

8.2 Frequency Domain ∞-Normof Systems

8.3 Model Uncertainties and Robust Stability

8.4 Chordal and Spherical Distances

8.5 Distance between Systems

8.6 Uncertainty and Robustness

8.7 Problems

8.8 Notes and References

9 Optimal and Robust Control

9.1 Controller with Optimal Transient

9.2 Controller with Weighted Optimal Transient

9.3 Minimum Energy Stabilization

9.4 Derivation of the Optimal Controller*

9.5 Optimal Robust Stabilization

9.6 Stabilization with Guaranteed Robustness

9.7 Problems

9.8 Notes and References

Bibliography

A Laplace Transform

A.1 Definition

A.2 Properties

A.3 Inverse Laplace Transform

A.4 Problems

A.5 Notes and References

B Matrices and Polynomials

B.1 Matrices

B.2 Polynomials

B.3 Problems

B.4 Notes and References

Courses

Control Theory  (Electrical & Computing Engineering)
Control Theory  (Mechanical & Aerospace Engineering)

Sample Chapter

Author Bios

Prof. Li Qiu received the B.Eng degree from Hunan University, Changsha, Hunan, China, in 1981. He received the M.A.Sc. and Ph.D. degrees from the University of Toronto, Toronto, Ont., Canada, in 1987 and 1990, respectively. He joined Hong Kong University of Science and Technology, Hong Kong SAR, China, in 1993, where he is now a professor of Electronic and Computer Engineering. Prof. Qiu's research interests include system, control, information theory, and mathematics for information technology. He served as an associate editor of the IEEE Transactions on Automatic Control and an associate editor of Automatica. He is now a Distinguished Lecturer of IEEE Control Systems Society and the general chair of the 7th Asian Control Conference, which is to be held in Hong Kong in 2009. He is a fellow of IEEE.

Prof. Kemin Zhou was born in Wuhu, China, in 1962. He received B.S. degree from Beijing University of Aeronautics and Astronautics in 1982, M.S.E.E. and Ph.D. degrees from University of Minnesota in 1986 and 1988, respectively. Since 1990, he has been with Louisiana State University where he is currently Mark and Carolyn C. Guidry Distinguished Professor in Electrical and Computer Engineering. He is the leading author of two books in the field: Robust and Optimal Control (Prentice Hall, 1995), which has been used worldwide as graduate textbook and research references and has been translated into Japanese (1997) and Chinese (2002), and Essentials of Robust Control (Prentice Hall, 1997). He is/was an Associate Editor of Automatica, IEEE Transactions on Automatic Control, SIAM Journal on Control and Optimization, Systems and Control Letters, Journal of System Sciences and Complexity, and Journal of Control Theory and Applications. He was named the Oskar R. Menton Endowed Professor in 1998 and Voorhies Distinguished Professor in 2004, recognized for outstanding accomplishments and contributions to LSU by the House of Representatives of the Louisiana Legislature in 2004, and received outstanding young investigator award from Natural Science Foundation of China in 2004. He was also selected in 2004 as the prestigious Chang Jiang Jiang Zuo Professor. He has also been honored as one of LSU 2008 Rainmakers. He was elected IEEE Fellow in 2003.

Backcover Copy

The Development of modern Optimal and robust control theory in the last thirty years calls for significant change in the teaching of classic control. It is the authors’ goal to integrate the modern optimal and robust control theory into classical control theory using tools already available from the context of classic control. This book represents the authors’ first attempt towards this challenging goal. The book includes a significant portion of the well-known classical control material, albeit with some twists and extensions whenever appropriate in consideration of recent developments and the available modern computational tools. There is significant coverage on some nontraditional topics such as

• Two-degree-of-freedom control
• Kharitonov robust stability results of polynomials
• Performance limitations due to non-minimum phase zeros
• Overshoot and undershoot and their relations with poles/zeros locations
• Routh table method for computing 2-norm
• Visualizing frequency responses from the Riemann sphere
• Modern optimal and robust control using classical tools

The book includes the following chapters:

• Modeling and simulation
• Stability and stabilization
• Time domain analysis
• Root locus method
• Frequency domain analysis
• Classical design in frequency domain
• Performance and robustness
• Optimal and robust control

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©2010  |  Prentice Hall  |  Cloth; 475 pp  |  Instock
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Companion Website for Introduction to Feedback Control
Qiu & Zhou
©2010  |  Prentice Hall  |  Website  |  Live
ISBN-10: 0132353989  |  ISBN-13: 9780132353984
This online resource is available at no cost.
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Companion Website for Introduction to Feedback Control
Qiu & Zhou
©2010  |  Prentice Hall  |  Website  |  Live
ISBN-10: 0132353989  |  ISBN-13: 9780132353984
This online resource is available at no cost.
More Info

Companion Website for Introduction to Feedback Control
Qiu & Zhou
©2010  |  Prentice Hall  |  Website  |  Live
ISBN-10: 0132353989  |  ISBN-13: 9780132353984
This online resource is available at no cost.
More Info

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