一种新的实现路径:输入饱和下严格反馈系统的自调节性能函数控制

A New Implementation Pathway: Self-Adjusting Performance Function-Based Control for Strict-Feedback Systems Under Input Saturation

IEEE Transactions on Cybernetics · 2026
被引 0
ABS 3

中文导读

提出一种自调节性能函数控制方法,通过实时调整性能函数的指数来平衡输入饱和下的约束与瞬态性能,并在车辆车道保持任务中验证了有效性。

Abstract

A novel approach is proposed for flexible performance-based control of strict-feedback systems subject to input saturation. The core design consists of three key components. First, the regulation of the performance function (PF) is achieved by reformulating it as an adaptive modification of its exponential index, exploiting its inherent structural properties. Second, a performance indicator function (PIF) is constructed based on output-side information by analyzing the system behavior in the absence of saturation, thereby avoiding the reliance on input-side compensation signals with limited differentiability. Third, a first-order auxiliary system is designed to adaptively adjust the exponential index in real time, driving the PIF to closely track the upper envelope of the actual tracking error. As a result, the proposed self-adjusting PF (SAPF) is able to maintain a dynamic balance between input and output behaviors by relaxing performance boundaries when constraint violations are imminent while actively accelerating PF contraction to enhance transient performance under saturation constraints. Building on this framework, an SAPF-based control algorithm is developed with rigorous closed-loop stability guarantees. Finally, the effectiveness and superiority of the proposed method are demonstrated through quantitative simulation comparisons with two advanced algorithms in a vehicle lane-keeping task.

控制理论非线性系统输入饱和自适应控制