Decentralized Adaptive Neural Approximated Inverse Control for a Class of Large-Scale Nonlinear Hysteretic Systems With Time Delays

Decentralized Adaptive Neural Approximated Inverse Control for a Class of Large-Scale Nonlinear Hysteretic Systems With Time Delays

This paper proposes a decentralized neural adaptive dynamic surface approximated inverse control (DNADSAIC) scheme for a class of large-scale time-delay systems with hysteresis nonlinearities as input. The decentralized control problem under the case only the outputs are measurable is solved by util...

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Veröffentlicht in:IEEE transactions on systems, man, and cybernetics. Systems man, and cybernetics. Systems, 2019-12, Vol.49 (12), p.2424-2437
Hauptverfasser: Zhang, Xiuyu, Wang, Yue, Chen, Xinkai, Su, Chun-Yi, Li, Zhi, Wang, Chenliang, Peng, Yaxuan
Format: Artikel
Sprache:eng
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Adaptive control
Approximation
Computer simulation
Control systems
Decentralized adaptive control
Decentralized control
Delay effects
dynamic surface approximated inverse control
Feedback control
Hysteresis
Hysteretic systems
Inverse problems
large-scale system
Large-scale systems
Neural networks
Nonlinear systems
Radial basis function
Subsystems
Time delay systems
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Zusammenfassung:This paper proposes a decentralized neural adaptive dynamic surface approximated inverse control (DNADSAIC) scheme for a class of large-scale time-delay systems with hysteresis nonlinearities as input. The decentralized control problem under the case only the outputs are measurable is solved by utilizing the radial basis function neural networks approximator and the hysteresis approximated inverse compensator. Also, with the help of finite covering lemma, the traditional Krasovskii functionals are dropped when coping with the delays, leading to the removal of the assumptions on the functions with time-delay states and the acquisition of the arbitrarily small L ∞ tracking performance of each hysteretic subsystem with time delays. The analysis of stabilities guarantees all the signals of the closed-loop systems are semiglobally uniformly ultimately bounded. Simulation results illustrate the efficiency of the proposed DNADSAIC scheme.
ISSN:2168-2216
2168-2232
DOI:10.1109/TSMC.2018.2827101