This chapter is concerned with the synchronization problem for a class of delayed complex networks with random occurring cyber-attacks. First, a hybrid event-triggered communication scheme is proposed to reduce the transmission load of networks, which includes the event-triggered scheme and the time-triggered scheme in one framework. Then, a synchronization error dynamic system is obtained for the considered networks, and a new sufficient condition is derived such that the synchronization error system is asymptotically stable in the mean-square sense. Furthermore, it is also shown that the controller gain matrices can be determined by solving some matrix inequalities. Finally, two simulation examples are introduced to validate the main results.
Hybrid-Triggered Synchronization of Delayed Complex Dynamical Networks Subject to Stochastic Cyber-Attacks
Studies in Systems, Decision and Control
Recent Advances in Control Problems of Dynamical Systems and Networks ; Chapter : 19 ; 457-476
2020-08-11
20 pages
Article/Chapter (Book)
Electronic Resource
English
Event-triggered flocking control of multi-agent systems in presence of cyber attacks
SAGE Publications | 2021
|Automotive engineering | 2013
|Mean-Square Stochastic Stability of Delayed Hybrid Stochastic Inertial Neural Networks
Springer Verlag | 2020
|Cyber Attacks: Requirements for Change
Online Contents | 2009
|