Neighboring Mode-Dependent Dynamic Event-Triggered Control for Markov Jump Interconnected Systems With Unknown Interconnections

This work is absorbed in the neighboring mode-dependent event-triggered control scheme for Markov jump systems with unknown interconnections. To save communication resources and reduce cost, a dynamic event-triggered scheme relies on neighboring modes information is proposed. Then, the state feedback controllers are designed based on neighboring mode–dependent dynamic event-triggered approach to assure the stability of the system. Distinguished from existing results, the proposed method does not need to access the operation modes of all sub-systems. The cyclic-small-gain criterion is used to tackle the unknown interconnections, thereby a novel stability criteria are obtained for the closed-loop systems with (Formula presented.) performance. Finally, two simulation results are given to reveal the validity of the obtained results.