Robust Control Engineering : Practical QFT Solutions

Title: Robust Control Engineering : Practical QFT Solutions
Author: Mario Garcia-Sanz
ISBN: 1032096748 / 9781032096742
Format: Soft Cover
Pages: 578
Publisher: CRC Press
Year: 2021
Availability: 2 to 3 weeks

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This book thoroughly covers the fundamentals of the QFT robust control, as well as practical control solutions, for unstable, time-delay, non-minimum phase or distributed parameter systems, plants with large model uncertainty, high-performance specifications, nonlinear components, multi-input multi-output characteristics or asymmetric topologies. The reader will discover practical applications through a collection of fifty successful, real world case studies and projects, in which the author has been involved during the last twenty-five years, including commercial wind turbines, wastewater treatment plants, power systems, satellites with flexible appendages, spacecraft, large radio telescopes, and industrial manufacturing systems. Furthermore, the book presents problems and projects with the popular QFT Control Toolbox (QFTCT) for MATLAB, which was developed by the author.
Instructors.

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  • Covers the fundamentals of the QFT robust control and its application to a variety of problems, including nonlinear cases and multi-input multi-output systems.
  • Includes a collection of over 50 detailed real-world case studies and examples developed for industry and space agencies.
  • Utilizes the QFT Control Toolbox (QFTCT) for MATLAB, developed by the author, for problems and projects presented in each chapter.
  • The material has been extensively classroom-tested in undergraduate and graduate courses at universities worldwide.
  • As one of the most practical design methods available, QFT deals with model uncertainty and multi-objective specifications and gives solutions from classical PID to advanced controllers.

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Preface

Chapter 1 : Introduction
Chapter 2 : QFT Robust Control
Chapter 3 : Unstable Systems and Control Solutions
Chapter 4 : Time-Delay and Non-Minimum Phase Systems
Chapter 5 : Distributed Parameter Systems
Chapter 6 : Gain Scheduling / Switching Control Solutions
Chapter 7 : Nonlinear Dynamic Control
Chapter 8 : Multi-Input Multi-Output Systems : Analysis & Control
Chapter 9 : Control Topologies
Chapter 10 : Controller Implementation

Appendix 1 : Projects and Problems
Appendix 2 : QFT Control Toolbox (QFTCT) : User’s Guide
Appendix 3 : Algorithm : Nyquist Stability Criterion in Nichols Chart
Appendix 4 : Algorithms : Smith Predictor Robust Control
Appendix 5 : Algorithms : DPS Robust Control
Appendix 6 : Algorithms : Gain Scheduling / Switching Control
Appendix 7 : Algorithms : Nonlinear Dynamic Control
Appendix 8 : Algorithms : Mimo Robust Control
Appendix 9 : Conversion of Units
References
Index