Hengqian Li scite author profile

For nonlinear networked control systems with deception attacks, the problem of dynamic event‐triggered dissipative control is researched in this article. First, on the basis of nonlinear networked control systems model, a dynamic event triggered scheme is proposed to save impact of network bandwidth. Second, considering the impact of time delay, a networked time‐delay system model under deception attacks is established. Third, by constructing a new and less conservative Lyapunov function, using linear matrix inequality and unilateral Lipschitz condition, we derive some new sufficient conditions to guarantee the asymptotically stability of nonlinear networked control systems and strictly ‐dissipative performance. Besides, a cooperative design strategy of dynamic event triggered scheme parameters and controller gain is put forward. Finally, a simulation example is given to prove feasibility and rationality of the proposed strategy.

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Hybrid-Triggered H_∞ Control for Networked Control Systems With Deception Attacks

Yang

Zhan

et al. 2023

IEEE Trans. Circuits Syst. II

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Dynamics of a delayed stochastic epidemic model with double epidemic hypothesis and saturated incidence

Guo

2022

Computer Methods in Biomechanics and Biomedical Engineering

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Hengqian Li

Dynamics study of a stochastic SIQR epidemic model with vaccination and saturated incidence

Dynamic event‐triggered dissipative control of nonlinear networked control systems with deception attacks

Hybrid-Triggered H_∞ Control for Networked Control Systems With Deception Attacks

Dynamics of a delayed stochastic epidemic model with double epidemic hypothesis and saturated incidence

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Hengqian Li

Dynamics study of a stochastic SIQR epidemic model with vaccination and saturated incidence

Dynamic event‐triggered dissipative control of nonlinear networked control systems with deception attacks

Hybrid-Triggered H∞ Control for Networked Control Systems With Deception Attacks

Dynamics of a delayed stochastic epidemic model with double epidemic hypothesis and saturated incidence

Contact Info

Product

Resources

About

Hybrid-Triggered H_∞ Control for Networked Control Systems With Deception Attacks