Linear control system analysis and design : conventional and modern

Bibliographic Information

Linear control system analysis and design : conventional and modern

John J. D'Azzo, Constantine H. Houpis

(McGraw-Hill series in electrical and computer engineering, . Control theory)(McGraw-Hill international editions, . Electrical engineering series)

McGraw-Hill, 1995

4th ed

Available at  / 5 libraries

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Includes index

Description and Table of Contents

Description

This revised edition emphasizes undergraduate topics and the use of CAD programs, while providing a rigorous treatment of advanced topics and derivation techniques. Organized logically and for maximum teaching flexibility, it instills the basic principles of feedback control essential to all specialty areas of engineering. The first part of the book offers a comprehensive analysis of the fundamentals necessary for feedback control system analysis. The second part provides coverage of root locus, frequency response and state feedback techniques. The last part includes a large number of modern techniques that are useful to the systems design engineer, and also covers a broad spectrum of applicable advanced design methods, such as eigenvalue and eigenstructure assignments, high gain output feedback proportional plus integral controllers, and quantitative feedback theory (QFT). CAD technology is enhanced by the use of MATLAB problems throughout the text. Numerous worked examples, end-of-chapter problems and additional software options such as ICECAP-PC and TOTAL-PC are also offered. This comprehensive text is intended to be of use to both undergraduate and postgraduate students, self-educators and practising engineers.

Table of Contents

  • Introduction
  • writing systems equations
  • solution of differential equations
  • laplace transform
  • system representation
  • control-system characteristics
  • root locus
  • frequency response
  • closed-loop tracking performance based on the frequency response
  • root-locus compensation - design
  • frequency-response compensation - design
  • control-ratio modelling
  • design - closed-loop pole-zero assignment (state-variable feedback)
  • parameter sensitivity and state space trajectories
  • digital control systems
  • entire eigenstructure assignment for multivariable systems
  • design of tracking systems using output feedback
  • quantitative feedback theory (QFT) technique. Appendices.

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