IEEE Transactions on Automatic Control, Vol.65, No.3, 1340-1347, 2020
Event-Triggered Global Finite-Time Control for a Class of Uncertain Nonlinear Systems
This paper focuses on the problem of global finite-time stabilization for a class of uncertain nonlinear systems with event-triggered inputs. The existing event-based design methods can only partially compensate for the effects of the event-triggered errors and cannot completely counteract them to achieve finite-time control. For this reason, a new method about event triggering mechanism and event-triggered controller codesign is presented based on the idea of backstepping design and the sign function technique. It is proved that the event-triggered control system is the Zeno-free and the newly proposed control strategy ensures the global finite-time stability of the closed-loop systems via Lyapunov analyses and finite-time stability theory, which improves the existing results of only boundedness or asymptotic stability. Finally, two examples are performed to demonstrate the validity of the proposed strategy.
Keywords:Nonlinear systems;Asymptotic stability;Control systems;Stability criteria;Adaptive systems;Backstepping;Event-triggered control;global finite-time stabilization;networked control systems;uncertain nonlinear systems