Nonfragile H output feedback control of linear systems with an event-triggered scheme against unreliable communication links.

This paper studies the event-triggered H static output feedback control of linear systems with unreliable communication. The unreliable phenomenon between the event-triggering unit and the controller is described by a stochastic variable with Bernoulli random binary distribution. To cast the considered problem in the robust control framework, the event-triggering scheme is presented by a time-delay form. A vertex structure separation strategy is utilized to handle control gain with interval variations, which could alleviate computation burden heavily. Resorting to a division of control gain from Lyapunov variable, a new method for the non-fragile H controller synthesis is established in the framework of linear matrix inequalities. Simulations are executed to show the validity of the proposed approach.