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- Title
Event-Triggered Adaptive Control of Nonlinear Cyber-Physical Systems Under Network Attacks.
- Authors
CHEN Zebin; YU Zhaoxu; LI Shugang
- Abstract
The problem of adaptive output feedback control for a class of nonlinear Cyber-Physical Systems(CPSs) with unknown control direction under sensor and actuator attacks is studied. By implementing a suitable linear state transformation, the original system is transformed into a new system for facilitating the design of output feedback controller. Nussbaum gain function method is adopted to overcome the design difficulty resulted from unknown control coefficients and network attacks. Based on the state estimate and the attacked measurement output signal, a new event-triggered adaptive output-feedback control strategy is proposed by means of neural network approximation method. The proposed controller can not only achieve the semi-globally uniformly ultimately boundedness of the closed-loop system, but also greatly reduce the number of transmitted data. In addition, the "complexity explosion" problem in backstepping design can be overcome by means of the dynamic surface control (DSC) method based on a nonlinear filter. Finally, a robotic arm system is utilized to verify the effectiveness and practicality of the proposed control method.
- Subjects
CYBER physical systems; NONLINEAR systems; ADAPTIVE fuzzy control; BACKSTEPPING control method; ADAPTIVE control systems; CLOSED loop systems; ROBOTICS
- Publication
Journal of East China University of Science & Technology, 2024, Vol 50, Issue 3, p411
- ISSN
1006-3080
- Publication type
Article
- DOI
10.14135/j.cnki.1006-3080.20230518001