Abstract
This article investigates the secure multi-synchronization control problem of the heterogeneous dynamical networks (DNs) subject to deception attacks (DAs). First of all, a heterogeneous DNs model under DAs is built. The deception attackers are assumed to inject false information into the sensor-to-controller channels and the controller-to-actuator channels. Then, the centralized and distributed event-triggered impulsive controllers (ETIC) are designed respectively for DNs subject to DAs to achieve secure multi-synchronization. The synchronization error converges to a bounded set dependent on the heterogeneity of networks and the total attack energy. In addition, the heterogeneous DNs without DAs under ETIC can achieve multi-synchronization. Finally, a numerical example is given to verify the correctness of the theoretical results.
Published Version
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