具有用户指定时间内期望精度的非线性自整定PI控制

Nonlinear Auto-Tuning PI Control With Desired Precision Within User-Specifiable Time

IEEE Transactions on Cybernetics · 2025
被引 1
ABS 3

中文导读

提出一种非线性自适应PI控制方法,通过自整定增益和预设性能函数,在指定时间内将跟踪误差限制在预定边界内,解决积分饱和问题。

Abstract

This article presents a novel nonlinear adaptive proportional-integral (PI)-like tracking control approach designed for a class of uncertain nonlinear systems. The proposed method offers several key advantages: 1) it maintains a simple PI structure while incorporating nonlinear elements; 2) unlike traditional PI control, which typically employs fixed PI gains and is susceptible to integration saturation, this approach utilizes self-tuning PI gains to effectively eliminate saturation issues, thereby addressing the long-standing windup problem; and 3) it skillfully manages both the transient behavior and steady-state accuracy of the tracking error through a new prescribed performance function that is independent of initial conditions. This ensures that, for any unknown bounded initial tracking errors, the proposed PI-like control can uniformly confine the tracking error to a specified boundary (accuracy) within a predetermined time rather than over an infinite duration. The effectiveness and advantages of this method are validated through simulation results.

控制理论非线性系统自适应控制PI控制