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Multi-stage feedback control design for multi-time-scale system
紀錄類型:
書目-語言資料,印刷品 : Monograph/item
正題名/作者:
Multi-stage feedback control design for multi-time-scale system/ by Ravindra Munje, Balasaheb Patre, Weidong Zhang.
作者:
Munje, Ravindra.
其他作者:
Patre, Balasaheb.
出版者:
Singapore :Springer Nature Singapore : : 2024.,
面頁冊數:
xxiii, 126 p. :ill. (chiefly col.), digital ; : 24 cm.;
Contained By:
Springer Nature eBook
標題:
Feedback control systems. -
電子資源:
https://doi.org/10.1007/978-981-97-4592-0
ISBN:
9789819745920
Multi-stage feedback control design for multi-time-scale system
Munje, Ravindra.
Multi-stage feedback control design for multi-time-scale system
[electronic resource] /by Ravindra Munje, Balasaheb Patre, Weidong Zhang. - Singapore :Springer Nature Singapore :2024. - xxiii, 126 p. :ill. (chiefly col.), digital ;24 cm. - Springer tracts in electrical and electronics engineering,2731-4219. - Springer tracts in electrical and electronics engineering..
Introduction -- Three-Stage Design using Two-Time-Scale Technique -- Multi-Stage Observer Designs for Three-Time-Scale System with Application to AHWR -- Observer-based Output Feedback Integral Control for Coal-Fired Power Plant -- Two-Stage Multirate Feedback Control Designs -- Two-Stage Multirate Feedback Control Design using Observer -- Three-Stage Multirate Feedback Control Design using Observer -- Concluding Remarks and Future Directions.
This book presents multi-stage feedback control designs for the system with multi-time-scale behaviour both in the continuous time domain and discrete-time domain. Multi-time-scale systems have widely separated clusters of eigenvalues, making the system matrices ill-conditioned. Due to this the direct design of a feedback controller and reduced- or full-order observers for such systems is a challenging task. Hence, the feedback controllers and observers are designed in multiple design stages, i.e. two-stage design for the two-time-scale system and three-stage design for the three-time-scale system. In this book, multi-stage feedback controller and observer designs are proposed for the three-time-scale system to reduce offline and online computational efforts. The applicability of these methods is demonstrated by simulating practical systems like a coal-fired power plant and a nuclear power plant. This book also discusses the design of multi-stage feedback controllers in discrete time. The design of state feedback control for a multi-time-scale system with a lower sampling rate fails to capture information in the fastest (very fast) and fast states. While sampling at a higher rate increases computation time. Thus, the use of single-rate sampling for such systems is unsuitable. Therefore, multi-rate state feedback controllers are designed for the multi-time-scale system, in which slow, fast, and very fast states are sampled at different sampling rates. As slow, fast and very fast states are the decoupled and internal states of the original system, these are estimated by the sequential multi-stage observers. Applications of these multirate designs to the numerical examples are demonstrated and simulations are compared with single-rate sampling methods. The methods suggested in this book result in considerable savings in online and offline computations, reduction in design complexity, and improvement in robustness and closed-loop performance. This book can be beneficial to mathematicians, scientists, researchers and practicing engineers working in this area.
ISBN: 9789819745920
Standard No.: 10.1007/978-981-97-4592-0doiSubjects--Topical Terms:
596555
Feedback control systems.
LC Class. No.: TJ216
Dewey Class. No.: 629.83
Multi-stage feedback control design for multi-time-scale system
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This book presents multi-stage feedback control designs for the system with multi-time-scale behaviour both in the continuous time domain and discrete-time domain. Multi-time-scale systems have widely separated clusters of eigenvalues, making the system matrices ill-conditioned. Due to this the direct design of a feedback controller and reduced- or full-order observers for such systems is a challenging task. Hence, the feedback controllers and observers are designed in multiple design stages, i.e. two-stage design for the two-time-scale system and three-stage design for the three-time-scale system. In this book, multi-stage feedback controller and observer designs are proposed for the three-time-scale system to reduce offline and online computational efforts. The applicability of these methods is demonstrated by simulating practical systems like a coal-fired power plant and a nuclear power plant. This book also discusses the design of multi-stage feedback controllers in discrete time. The design of state feedback control for a multi-time-scale system with a lower sampling rate fails to capture information in the fastest (very fast) and fast states. While sampling at a higher rate increases computation time. Thus, the use of single-rate sampling for such systems is unsuitable. Therefore, multi-rate state feedback controllers are designed for the multi-time-scale system, in which slow, fast, and very fast states are sampled at different sampling rates. As slow, fast and very fast states are the decoupled and internal states of the original system, these are estimated by the sequential multi-stage observers. Applications of these multirate designs to the numerical examples are demonstrated and simulations are compared with single-rate sampling methods. The methods suggested in this book result in considerable savings in online and offline computations, reduction in design complexity, and improvement in robustness and closed-loop performance. This book can be beneficial to mathematicians, scientists, researchers and practicing engineers working in this area.
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