Ebook: Decoupling Control
Author: Prof. Qing-Guo Wang (auth.)
- Tags: Control Engineering, Vibration Dynamical Systems Control, Systems Theory Control, Complexity
- Series: Lecture Notes in Control and Information Sciences 285
- Year: 2003
- Publisher: Springer-Verlag Berlin Heidelberg
- Edition: 1
- Language: English
- pdf
Decoupling or non-interactive control has attracted considerable research attention since the 1960s when control engineers started to deal with multivariable systems. The theory and design techniques for decoupling control have now, more or less matured for linear time-invariant systems, yet there is no single book which focuses on such an important topic. The present monograph fills this gap by presenting a fairly comprehensive and detailed treatment of decoupling theory and relevant design methods. Decoupling control under the framework of polynomial transfer function and frequency response settings, is included as well as the disturbance decoupling problem. The emphasis here is on special or relatively new compensation schemes such as (true and virtual) feedforward control and disturbance observers, rather than use of feedback control alone. The results are presented in a self-contained way and only the knowledge of basic linear systems theory is assumed of the reader.
Decoupling or non-interactive control has attracted considerable research attention since the 1960s when control engineers started to deal with multivariable systems. The theory and design techniques for decoupling control have now, more or less matured for linear time-invariant systems, yet there is no single book which focuses on such an important topic. The present monograph fills this gap by presenting a fairly comprehensive and detailed treatment of decoupling theory and relevant design methods. Decoupling control under the framework of polynomial transfer function and frequency response settings, is included as well as the disturbance decoupling problem. The emphasis here is on special or relatively new compensation schemes such as (true and virtual) feedforward control and disturbance observers, rather than use of feedback control alone. The results are presented in a self-contained way and only the knowledge of basic linear systems theory is assumed of the reader.
Decoupling or non-interactive control has attracted considerable research attention since the 1960s when control engineers started to deal with multivariable systems. The theory and design techniques for decoupling control have now, more or less matured for linear time-invariant systems, yet there is no single book which focuses on such an important topic. The present monograph fills this gap by presenting a fairly comprehensive and detailed treatment of decoupling theory and relevant design methods. Decoupling control under the framework of polynomial transfer function and frequency response settings, is included as well as the disturbance decoupling problem. The emphasis here is on special or relatively new compensation schemes such as (true and virtual) feedforward control and disturbance observers, rather than use of feedback control alone. The results are presented in a self-contained way and only the knowledge of basic linear systems theory is assumed of the reader.
Content:
Front Matter....Pages I-XI
Introduction....Pages 1-9
Representations of Linear Dynamic Systems....Pages 11-64
Stability and Robustness of Feedback Systems....Pages 65-114
State Space Approach....Pages 115-128
Polynomial Matrix Approach....Pages 129-185
Transfer Matrix Approach....Pages 187-235
Delay Systems....Pages 237-266
Near-Decoupling....Pages 267-292
Dynamic Disturbance Decoupling....Pages 293-325
Asymptotic Disturbance Decoupling....Pages 327-356
Back Matter....Pages 357-365
Decoupling or non-interactive control has attracted considerable research attention since the 1960s when control engineers started to deal with multivariable systems. The theory and design techniques for decoupling control have now, more or less matured for linear time-invariant systems, yet there is no single book which focuses on such an important topic. The present monograph fills this gap by presenting a fairly comprehensive and detailed treatment of decoupling theory and relevant design methods. Decoupling control under the framework of polynomial transfer function and frequency response settings, is included as well as the disturbance decoupling problem. The emphasis here is on special or relatively new compensation schemes such as (true and virtual) feedforward control and disturbance observers, rather than use of feedback control alone. The results are presented in a self-contained way and only the knowledge of basic linear systems theory is assumed of the reader.
Content:
Front Matter....Pages I-XI
Introduction....Pages 1-9
Representations of Linear Dynamic Systems....Pages 11-64
Stability and Robustness of Feedback Systems....Pages 65-114
State Space Approach....Pages 115-128
Polynomial Matrix Approach....Pages 129-185
Transfer Matrix Approach....Pages 187-235
Delay Systems....Pages 237-266
Near-Decoupling....Pages 267-292
Dynamic Disturbance Decoupling....Pages 293-325
Asymptotic Disturbance Decoupling....Pages 327-356
Back Matter....Pages 357-365
....
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