Event‐triggered feedback control for delayed singular jump systems based on sampled observer and exponential detector
Guangming Zhuang, Jianwei Xia, Qian Ma, Wei Sun, Yanqian Wang
Abstract
Abstract This paper is intended to investigate the problem of event‐triggered feedback control for time‐varying delays singular jump systems based on sampled observer and exponential detector. By virtue of the designed event‐triggered control strategies, the state estimate signals are transmitted to the controller under the networked communication environment and aperiodic sampling scheme. The driving threshold is devised by exponentially decreasing function, which is used to guarantee not only the validity of event‐triggered strategy but also the admissibility of the delayed singular jump systems. Neoteric stochastic admissibility, stabilization and performance conditions are obtained in terms of linear matrix inequalities. Simulation examples including an oil catalytic cracking process are utilized to illustrate the validity and superiority of the proposed event‐triggered feedback control technique.