Stabilization for networked control systems under stochastic cyber-attacks

In this paper, the problem of controller design for networked control systems with stochastic cyber-attacks is investigated. Firstly, considering the network-induced delay and cyber-attacks, a mathematical controller model for networked control systems is constructed for analysis. Secondly, based on this model, sufficient conditions for the stability of controller design and gain parameters of desired controller are achieved by using Lyapunov function approach and linear matrix inequality techniques. Finally, a simulated example is given to show the usefulness of designed controller for networked system with stochastic cyber-attacks.

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