Event-Triggered Consensus of General Linear Multiagent Systems With Data Sampling and Random Packet Losses

This paper investigates the event-triggered consensus of linear multiagent systems with periodic data sampling mechanisms, where random packet losses are taken into account. The random packet losses occur in communication links based on a certain probability, and it is subject to the Bernoulli distribution. A novel distributed control protocol is designed based on the combined measurement to achieve the mean square consensus. By using the Riccati inequalities and linear matrix inequalities, an event-triggered condition with fewer parameters is also designed to reduce the information updating number. The interaction among the control gain matrix, sampling interval, and packet losses probability is used to describe the consensus conditions. The maximum sampling interval is presented explicitly. It is shown that the advantages of the proposed event-triggered strategy with the data sampling mechanism can avoid the Zeno behavior of the systems and continuous monitoring of the states. The simulations are provided to verify the proposed control strategy.

Automated summary

This paper investigates the event-triggered consensus of linear multiagent systems with periodic data sampling mechanisms, taking into account random packet losses. A novel distributed control protocol is designed to achieve mean square consensus, while also reducing information updating and avoiding Zeno behavior through mathematical methods. Simulations are provided to verify the effectiveness of the proposed control strategy.