Adaptive neural network terminal sliding mode tracking control for uncertain nonlinear systems with time-varying state constraints

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Opis bibliograficzny
Wydane w:	Measurement and Control vol. 58, no. 5 (May 2025), p. 553
1. autor:	Dao-gen Jiang
Kolejni autorzy:	Long-jin, Lv, Sun-hao, Song, Jia-hao, Li
Wydane:	Sage Publications Ltd.
Hasła przedmiotowe:	Asymmetry Control theory Neural networks Tracking control Mode tracking Sliding mode control Algorithms Nonlinear systems Subsystems Nonlinear control Liapunov functions Control methods Tracking errors Constraints
Dostęp online:	Citation/Abstract Full text outside of ProQuest
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Opis
Streszczenie:	Exploring a novel adaptive asymmetric sliding mode control methodology with time-varying state constraints (TVSCs), we address trajectory tracking issues in uncertain nonlinear systems. The asymmetric barrier Lyapunov functions (ABLFs) and neural networks is employed within each subsystem’s virtual control design process using back-stepping control (BSC) method. This ensures the imposition of TVSCs and effectively addresses challenges posed by system uncertainties. Additionally, to enhance the convergence of tracking deviations within small zero neighborhoods, a nonsingular integral terminal sliding mode control (NITSMC) method is incorporated into the actual control algorithm design. This method illustrates that, the system states consistently stay within the specified boundaries, tracking errors rapidly converge to a confined range. All signals within the system remain bounded. Simulation findings affirm the efficacy of the suggested control strategy.
ISSN:	0020-2940 2051-8730
DOI:	10.1177/00202940241279360
Źródło:	Advanced Technologies & Aerospace Database