Synopses & Reviews
Motivate Students with Real-World Control Systems Emphasizing the practical application of control systems engineering, this 3rd edition with its updated contents will motivate students to learn how to analyze and design feedback control systems that support today's advanced technology. Motivation is obtained through clear and complete explanations of how to design real-world systems. Topics are presented in a logical and progressive way that builds and supports understanding. Whenever possible, new concepts are first presented from a qualitative perspective to help students gain the insight needed to develop sound designs. Next, a detailed discussion of quantitative tools gives readers the ability to design parameters and configurations for systems they will encounter during their career. And with the use of MATLAB(r), students will find out how to apply the latest computer methods to the analysis and design of control systems. Key Features of the Third Edition
* Case studies, using the same system progressively, are integrated throughout the text to provide students with a realistic view of each stage of the control system design process.
* A methodology with clearly defined steps is presented for each type of design problem.
* Numerous in-chapter examples and skill-assessment exercises, as well as end-of-chapter review questions and problems, including a progressive analysis and design problem that uses the same system, are provided.
* An introduction to state-space methods of analysis and design is included. These sections are clearly marked and can be taught along with classical methods, taught separately, or skipped without loss of continuity.
* Tutorials are provided on how to use MATLAB(r), the Control System Toolbox, Simulink(r), and the Symbolic Math Toolbox to analyze and design control systems. Also included are tutorials on how to use two MATLAB(r) graphical user interface (GUI) design and analysis tools - the LTI Viewer and the Root Locus Design GUI. All tutorials and MATLAB(r) code are contained in the text's appendices so as not to detract from the teaching of control systems engineering principles. References to these appendices are provided at appropriate places in the text.
* An accompanying CD-ROM provides valuable additional material, such as stand-alone computer applications, electronic files of the text's computer programs for use with MATLAB(r), additional appendices, and solutions to skill-assessment exercises.
* Illustrations from the book in the form of electronic files are available at http://www.wiley.com/college/nise
Synopsis
Emphasizing the practical application of control systems engineering, the new Fourth Edition shows how to analyze and design real-world feedback control systems. Readers learn how to create control systems that support today's advanced technology and apply the latest computer methods to the analysis and design of control systems.
* A methodology with clearly defined steps is presented for each type of design problem.
* Continuous design examples give a realistic view of each stage in the control systems design process.
* A complete tutorial on using MATLAB Version 5 in designing control systems prepares readers to use this important software tool.
Synopsis
What types of control systems will you face in the real world?The same ones you'll face in Nise's Fourth Edition of CONTROL SYSTEMS ENGINEERING.
Emphasizing the practical application of control systems engineering, this Fourth Edition shows how to analyze and design real-world feedback control systems that support today's advanced technologies. The text presents material in a logical and progressive way that builds and supports your understanding of key concepts, and provides insight into the design of system configurations and parameters, using both qualitative and quantitative explanations. As an added benefit, you'll learn how to apply MATLAB®–industry standard computer software–to the analysis and design of control systems.
Key Features
- Presents clearly defined steps for design problems.
- Progressive case studies, which use the same physical system in each chapter, provide a realistic view of each stage of the control system design process.
- Skill-assessment exercises at the conclusion of most sections test your ability to perform the analysis and design discussed. In addition, the text provides numerous in-chapter examples, review questions, and problems.
- Tutorials in the appendices introduce you to the latest versions of MATLAB, the Control System Toolbox, Simulink®, the Symbolic Math Toolbox, and MATLAB's graphical user interface (GUI) tools (the LTI Viewer, the Simulink LTI Viewer, and the SISO Design Tool).
- Experiments using MATLAB, Simulink, and the SISO Design tool at the end of most chapters give you the opportunity to expand your knowledge by performing "what if" experimentation.
- An accompanying CD-ROM provides valuable additional material, such as stand-alone computer applications, electronic files of the text's computer programs for use with MATLAB, additional appendices, and complete solutions to skill-assessment exercises.
- Control Solutions powered by JustAsk!®, an online problem-solving tool, walks you step-by-step through over 150 end-of-chapter problems and skill-assessment exercises. Available at extra cost.
About the Author
Norman S. Nise
Table of Contents
1. Introduction.
2. Modeling in the Frequency Domain.
3. Modeling in the Time Domain.
4. Time Response.
5. Reduction of Multiple Subsystems.
6. Stability.
7. Steady-State Errors.
8. Root Locus Techniques.
9. Design via Root Locus.
10. Frequency Response Techniques.
11. Design via Frequency Response.
12. Design via State Space.
13. Digital Control Systems.
Appendix A: List of Symbols.
Appendix B: MATLAB Tutorial.
Appendix C: MATLAB's Simulink Tutorial.
Appendix D: MATLAB's GUI Tools Tutorial.
Appendix E: MATLAB's Symbolic Math Toolbox Tutorial.
Glossary.
Answers to Selected Problems.
Credits.
Index.
Appendix F: Matrices, Determinants, and Systems of Equations.
Appendix G: Control system Computational Aids.
Appendix H: Derivation of a Schematic for a DC Motor.
Appendix I: Derivation of the Time Domain Solution of State Equations.
Appendix J: Solution of State Equations for t< ;sub="">0 € 0.
Appendix K: Derivation of Similarity Transformations.
Appendix L: Root Locus Rules: Derivations.
Solutions to Skill-Assessment Exercises.
Control Systems Engineering Toolbox.
Lecture Graphics.
Cyber Exploration Laboratory Experiments.