Event-triggered Containment Control for a Class of High-order Nonlinear Multi-agent Systems

Abstract

This paper addresses the event-triggered containment control for a class of multi-agent systems, where the dynamics of agents are described by high-order nonlinear systems. Due to the complexity of high-order nonlinear systems, the event-triggered containment control problem is hard to solve, and the main difficulty lies in how to exclude the Zeno behavior. To this end, optimized event-triggered conditions are designed by applying the error threshold for centralized and decentralized cases, respectively. It is proven that under the designed protocols, all the followers can asymptotically converge to the convex hull spanned by multiple leaders and the Zeno behavior can be avoided. Finally, a numerical simulation is given to verify the effectiveness of the presented protocols.