Relay Feedback [electronic resource] : Analysis, Identification and Control
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Author: Wang, Qing-Guo, Lee, Tong Heng, Lin, Chong
Added by: sketch
Added Date: 2015-12-30
Language: eng
Subjects: Engineering, Chemical engineering, Systems theory, Engineering design, Electronics
Publishers: London : Springer London
Collections: folkscanomy miscellaneous, folkscanomy, additional collections
ISBN Number: 9781447100416, 1447100417
Pages Count: 600
PPI Count: 600
PDF Count: 1
Total Size: 116.87 MB
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Relay Feedback: Analysis, Identification and Control
Author: Qing-Guo Wang PhD, Tong Heng Lee PhD, Chong Lin PhD
Published by Springer London
ISBN: 978-1-4471-1117-7
DOI: 10.1007/978-1-4471-0041-6
Table of Contents:
Part I Analysis of Relay Feedback Systems: Existence of Solutions -- Existence of Limit Cycles -- Local Stability of Limit Cycles -- Global Stability of Limit Cycles. Part II Process Identification from Relay Feedback Test: Relay Feedback and Its Variations -- Use of Relay Transient Responses -- Transfer Function Modeling -- A General Identification Approach. Part III Control Design: Single Variable Systems -- Multivariable Systems -- Partial Internal Model Control -- Decentralized Control
Relay feedback has attracted considerable research attention for more than a century but there has been no recent summary of the many newly-developed tools and results now available for this important area as a whole, those that have been published tending to focus on one process or controller type only. Relay Feedback is divided into three parts, the first of which is devoted to the analysis of relay feedback systems within a general setting with information on: existence of solutions; existence of limit cycles; local and global stability of limit cycles; limit cycles with more than two switchings per period; plants with time delay; relays with asymmetric hysteresis. The second part, on the improvement of process identification shows the reader how to: modify a standard relay to provide better excitation of a process at a number of important frequencies; devise new algorithms designed to make better use of information from relay feedback tests. The book's third part is a presentation of recent developments in control design providing: a unified framework for the design of internal-model, proportional-integral-derivative or general-single-loop controllers for SISO or MIMO systems with or without time delays; characterisation of time delays and non-minimum phase zeros for closed-loop systems. Relay Feedback presents a comprehensive, up-to-date and detailed treatment of relay feedback theory, the use of relay feedback for process identification and the use of identified models for general control design in a single volume. The work assumes only knowledge of linear system theory on the part of the reader and should therefore be of use to graduate students and practising engineers as well as to researchers
Author: Qing-Guo Wang PhD, Tong Heng Lee PhD, Chong Lin PhD
Published by Springer London
ISBN: 978-1-4471-1117-7
DOI: 10.1007/978-1-4471-0041-6
Table of Contents:
- Existence of Solutions
- Existence of Limit Cycles
- Local Stability of Limit Cycles
- Global Stability of Limit Cycles
- Relay Feedback and its Variations
- Use of Relay Transient Responses
- Transfer Function Modelling
- A General Identification Approach
- Single-variable Systems
- Multivariable Systems
- Partial Internal Model Control
- Decentralized Control
Part I Analysis of Relay Feedback Systems: Existence of Solutions -- Existence of Limit Cycles -- Local Stability of Limit Cycles -- Global Stability of Limit Cycles. Part II Process Identification from Relay Feedback Test: Relay Feedback and Its Variations -- Use of Relay Transient Responses -- Transfer Function Modeling -- A General Identification Approach. Part III Control Design: Single Variable Systems -- Multivariable Systems -- Partial Internal Model Control -- Decentralized Control
Relay feedback has attracted considerable research attention for more than a century but there has been no recent summary of the many newly-developed tools and results now available for this important area as a whole, those that have been published tending to focus on one process or controller type only. Relay Feedback is divided into three parts, the first of which is devoted to the analysis of relay feedback systems within a general setting with information on: existence of solutions; existence of limit cycles; local and global stability of limit cycles; limit cycles with more than two switchings per period; plants with time delay; relays with asymmetric hysteresis. The second part, on the improvement of process identification shows the reader how to: modify a standard relay to provide better excitation of a process at a number of important frequencies; devise new algorithms designed to make better use of information from relay feedback tests. The book's third part is a presentation of recent developments in control design providing: a unified framework for the design of internal-model, proportional-integral-derivative or general-single-loop controllers for SISO or MIMO systems with or without time delays; characterisation of time delays and non-minimum phase zeros for closed-loop systems. Relay Feedback presents a comprehensive, up-to-date and detailed treatment of relay feedback theory, the use of relay feedback for process identification and the use of identified models for general control design in a single volume. The work assumes only knowledge of linear system theory on the part of the reader and should therefore be of use to graduate students and practising engineers as well as to researchers
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