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Neural Computing and Applications

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25.02.2021 | Original Article

Neural adaptive appointed-time control for flexible air-breathing hypersonic vehicles: an event-triggered case

verfasst von: Yi Shi, Xingling Shao

Erschienen in: Neural Computing and Applications | Ausgabe 15/2021

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Abstract

This work investigates a neural adaptive appointed-time control for flexible air-breathing hypersonic vehicles subject to modeling nonlinearities, flexible modes, parameter uncertainties and external disturbances. A relative threshold-based neural estimator (RTNE) using minimal learning parameterizations is proposed to online-identify the lumped disturbances with a reduced occupation of communication resource via utilizing intermittent states, while heavy computational burden for online learning is remarkably reduced in the premise of a competitive estimation accuracy. With the estimation results produced by RTNE, a neural adaptive event-triggered control is advanced by incorporating a relative threshold-based sampler into controller-to-actuator channel, such that unnecessary continuous sampling incurring in current time-driven researches can be successfully avoided. Moreover, an appointed-time prescribed performance control is constructed to make the responses of velocity and altitude subsystems evolve within pregiven regions with a user-defined settling time; meanwhile, the strict dependence on the exact knowledge for immeasurable initial system states is removed. The stability of system is proved by virtue of input-to-state stable method, and Zeno behavior is eliminated. Simulations are performed to certify the effectiveness of presented controller.

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Titel: Neural adaptive appointed-time control for flexible air-breathing hypersonic vehicles: an event-triggered case
verfasst von: Yi Shi
Xingling Shao
Publikationsdatum: 25.02.2021
Verlag: Springer London
Erschienen in: Neural Computing and Applications / Ausgabe 15/2021
Print ISSN: 0941-0643
Elektronische ISSN: 1433-3058
DOI: https://doi.org/10.1007/s00521-021-05710-7

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