1. Guaranteed cost event-triggered H∞ control of uncertain linear system via output disturbance observer.
- Author
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Huang, Tao, Shao, Yiyu, Li, Liwei, Liu, Yajuan, and Shen, Mouquan
- Subjects
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LINEAR control systems , *FEEDBACK control systems , *LINEAR matrix inequalities , *CLOSED loop systems , *LYAPUNOV stability , *FUZZY neural networks , *HOPFIELD networks - Abstract
This paper is concerned with anti-disturbance output feedback control of uncertain systems via dynamic guaranteed cost triggering mechanism. An output disturbance observer is constructed to attenuate matched disturbances and the mismatched one is attenuated by the H ∞ approach. A new dynamic event-triggered mechanism is established in terms of guaranteed cost triggering condition and triggering threshold. A composite controller is built on an observer based state feedback controller and an output disturbance compensator. By employing the Lyapunov stability method, a sufficient condition is presented in the framework of linear matrix inequality to ensure the asymptotic stability of the closed-loop system with the prescribed cost. Comparative simulation studies are supplied to verify the effectiveness of the proposed composite control scheme. • Compared with the state DOB [25] , an output DOB is established firstly to reconstruct matched disturbances in input channels. • A new dynamic ETM is put forward and contains [36] as a special case. • A composite controller is constructed by an observer-based state feedback controller and a disturbance compensator. • A structural separation technique is utilized to tackle the controller gain and the observer gains. [ABSTRACT FROM AUTHOR]
- Published
- 2024
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