Exponential Regulation of Uncertain Nonlinear Triangular Impulsive Systems: A Logic-Based Switching Gain Approach
成果类型:
Article
署名作者:
Fan, Debao; Zhang, Xianfu; Wen, Changyun
署名单位:
Shandong University; Nanyang Technological University
刊物名称:
IEEE TRANSACTIONS ON AUTOMATIC CONTROL
ISSN/ISSBN:
0018-9286
DOI:
10.1109/TAC.2025.3545697
发表日期:
2025
页码:
4881-4888
关键词:
Switches
regulation
control systems
uncertainty
Fans
Upper bound
training
Real-time systems
Nonlinear systems
iterative methods
Exponential regulation
gain scaling approach
impulsive systems
logic-based switching
triangular systems
摘要:
This article addresses the exponential regulation problem for uncertain nonlinear impulsive systems with generalized triangular structures. Different from the existing works, the nonlinear growth rates under consideration are allowed to contain unknown constants and state-input-dependent functions, and the impulse effects are allowed to have unknown sizes. This problem has remained unsolved because it exceeds the coverage of common assumptions in impulsive systems. To this end, we propose a novel logic-based switching gain approach. Specifically, the well-designed logic-based switching mechanism detects the Lyapunov function in real time to adjust the candidate gain online such that the gain grows large enough to effectively dominate the strong nonlinearities and serious uncertainties. Interestingly, the proposed approach removes the restriction on impulse frequency (reflected by the average impulsive interval constant) within the lower-triangular structural framework, and executes only one switching action to obtain the upper bound of the required gain within the upper-triangular structural framework. It is shown that the logic-based switching adaptive controller ensures that all the closed-loop signals are bounded and the system states converge to the origin at an exponential rate. Finally, the effectiveness of the presented results is demonstrated by two representative examples.
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