Observers are digital algorithms that combine sensor outputs with knowledge of the system to provide results superior to traditional structures, which rely wholly on sensors. Observers have been used in selected industries for years, but most books explain them with complex mathematics. This book uses intuitive discussion, software experiments, and supporting analysis to explain the advantages and disadvantages of observers. If you are working in controls and want to improve your control systems, observers could be the technology you need and this book will give you a clear, thorough explanation of how they work and how to use them.
Control systems and devices have become the most essential part of nearly all mechanical systems, machines, devices and manufacturing systems throughout the world. Increasingly the efficiency of production, the reliability of output and increased energy savings are a direct result of the quality and deployment of the control system. A modern and essential tool within the engineer's kit is the Observer which helps improve the performance and reduce the cost of these systems.
George Ellis is the author of the highly successful Control System Design Guide (2nd Edition). Unlike most controls books, which are written by control theorists and academics, Ellis is a leading engineer, designer, author and lecturer working in industry directly with the users of industrial motion control systems. Observers in Control Systems is written for all professional engineers and is designed to be utilized without an in-depth background in control theory. This is a "real-world" book which will demonstrate how observers work and how theycan improve your control system. It also shows how observers operate when conditions are not ideal and teaches the reader how to quickly tune an observer in a working system.
Software Available on line: A free updated and enhanced version of the author's popular Visual ModelQ allows the reader to practice the concepts with Visual ModelQ models on a PC. Based on a virtual laboratory, all key topics are demonstrated with more than twenty control system models. The models are written in Visual ModelQ, and are available on the Internet to every reader with a PC.
* Teaches observers and Kalman filters from an intuitive perspective
* Explains how to reduce control system susceptibility to noise
* Shows how to design an adaptive controller based on estimating parameter variation using observers
Shows how to improve a control system's ability to reject disturbances
* Key topics are demonstrated with PC-based models of control systems. The models are written in both MatLab?? and ModelQ; models are available free of charge
Observers are digital algorithms that combine sensor outputs with knowledge of the system to provide results superior to traditional structures, which rely wholly on sensors. Observers have been used in selected industries for years, but most books explain them with complex mathematics. This book uses intuitive discussion, software experiments, and supporting analysis to explain the advantages and disadvantages of observers. If you are working in controls and want to improve your control systems, observers could be the technology you need and this book will give you a clear, thorough explanation of how they work and how to use them.
Control systems and devices have become the most essential part of nearly all mechanical systems, machines, devices and manufacturing systems throughout the world. Increasingly the efficiency of production, the reliability of output and increased energy savings are a direct result of the quality and deployment of the control system. A modern and essential tool within the engineer's kit is the Observer which helps improve the performance and reduce the cost of these systems.
George Ellis is the author of the highly successful Control System Design Guide (2nd Edition). Unlike most controls books, which are written by control theorists and academics, Ellis is a leading engineer, designer, author and lecturer working in industry directly with the users of industrial motion control systems. Observers in Control Systems is written for all professional engineers and is designed to be utilized without an in-depth background in control theory. This is a "real-world" book which will demonstrate how observers work and how theycan improve your control system. It also shows how observers operate when conditions are not ideal and teaches the reader how to quickly tune an observer in a working system.
Software Available on line: A free updated and enhanced version of the author's popular Visual ModelQ allows the reader to practice the concepts with Visual ModelQ models on a PC. Based on a virtual laboratory, all key topics are demonstrated with more than twenty control system models. The models are written in Visual ModelQ, and are available on the Internet to every reader with a PC.
* Teaches observers and Kalman filters from an intuitive perspective
* Explains how to reduce control system susceptibility to noise
* Shows how to design an adaptive controller based on estimating parameter variation using observers
Shows how to improve a control system's ability to reject disturbances
* Key topics are demonstrated with PC-based models of control systems. The models are written in both MatLab?? and ModelQ; models are available free of charge
Acknowledgements
Safety
Chapter 1 Control Systems and the Role of Observers
Chapter 2 Control-System Background
Chapter 3 Review of the Frequency Domain
Chapter 4 The Luenberger Observer: Correcting Sensor Problems
Chapter 5 The Luenberger Observer and Model Inaccuracy
Chapter 6 The Luenberger Observer and Disturbances 1
Chapter 7 Noise in the Luenberger Observer
Chapter 8 Using the Luenberger Observer in Motion Control
References
Appendix A Observer-Based Resolver Conversion in Industrial Servo
Systems
Appendix B Cures for Mechanical Resonance in Industrial Servo
Systems
Appendix C European Symbols for Block Diagrams
Appendix D Development of the Bilinear Transformation
Appendix E Solutions of Exercises
Index
Teaches observers and Kalman filters from an intuitive
perspective
Explains how to reduce control system susceptibility to noise
Shows how to design an adaptive controller based on estimating
parameter variation using observers
Shows how to improve a control system's ability to reject
disturbances
Key topics are demonstrated with PC-based models of control
systems. The models are written in both MatLab� and ModelQ; models
are available free of charge
George Ellis is Director of Technology Planning and Chief Engineer of Servo Systems at Kollmorgen Corporation, a leading provider of motion systems and components for original equipment manufacturers (OEMs) around the globe. He has designed an applied motion control systems professionally for over 20 years He has written two well-respected books with Academic Press, Observers in Control Systems and Control System Design Guide, now in its third edition. He has contributed articles on the application of controls to numerous magazines, including Machine Design, Control Engineering, Motion Systems Design, Power Control and Intelligent Motion, and Electronic Design News.
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