动态量化下非线性网络系统的自适应预设时间事件触发控制

Adaptive Prescribed-Time Event-Triggered Control of Nonlinear Networked Systems Under Dynamic Quantization

IEEE Transactions on Cybernetics · 2025
被引 7
ABS 3

中文导读

针对一类不确定非线性系统,提出一种自适应事件触发与量化控制方法,在预设时间内保证系统全局稳定,并避免芝诺现象,适用于提升网络控制系统的数据传输效率。

Abstract

This article addresses the issue of adaptive event-triggered and quantized control for a category of uncertain nonlinear systems, utilizing a prescribed-time (PT) control framework. We begin by introducing a dynamic event-triggering mechanism and a dynamic event-driven quantizer to develop a discrete control framework, without assuming the constraint of input-to-state stability (ISS). The aperiodic discrete control method can effectively improve the data transmission efficiency of the networked control system. Then, according to the adaptive parameter estimation, a novel PT event-triggered adaptive controller and a PT sampled and quantized adaptive controller are proposed. Compared with the backstepping control method, the designed "one-step-controller" decreases the computational loads of the virtual controllers. Moreover, the global PT stability of the nonlinear system is assured, and the Zeno phenomenon of the event-triggered sampling does not happen. Finally, the practicability and availability of the designed control method are validated via a numerical system and a manipulator system.

非线性系统网络控制系统事件触发控制自适应控制量化控制