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事件触发牵制脉冲控制下具有比例时滞的耦合基因振荡网络簇同步

Event-Triggered Pinning Impulsive Control for Cluster Synchronization of Coupled Genetic Oscillator Networks With Proportional Delay

IEEE Transactions on Systems, Man, and Cybernetics: Systems · 2023
被引 22
ABS 3

中文导读

研究了具有比例时滞的耦合基因振荡网络的簇同步问题,提出了一种基于李雅普诺夫函数的事件触发牵制脉冲控制规则,并推导出同步判据。

Abstract

This article considers the cluster synchronization of coupled genetic oscillator networks (GONs) with proportional delay via the event-triggered pinning impulsive control (ETPIC). First, a novel Lyapunov-dependent event-triggered rule for impulsive functional differential equation that includes proportional delay is proposed by means of a new auxiliary function and the improved Lyapunov–Razumikhin method, which is different from the previous results. And then, a Lyapunov-dependent ETPIC rule is first designed, which integrates the pinning control with the established event-triggered impulsive control. On this basis, some new cluster synchronization criteria for coupled GONs with proportional delay are derived in the light of linear matrix inequalities. Note that the triggering impulsive instant is determined by the designed ETPIC rule, and only a fraction of nodes of each cluster are controlled at each triggering instant according to the designed algorithm. Finally, a numerical example is provided to show the effectiveness of the proposed approach.

控制理论复杂网络基因调控网络脉冲控制同步