Yinghui Li scite author profile

A new fixed-time fuzzy adaptive fault-tolerant control methodology is proposed for the longitudinal dynamics of hypersonic flight vehicles (HFVs) in the presence of actuator faults, uncertain dynamics, and external disturbances. In contrast with the conventional fixed-time control schemes that typically contain the fractional powers of errors in their designs, this work develops a low-complexity control structure in the sense of removing the dependence on the need of abovementioned fractional power terms by means of prescribed performance control (PPC) method. Different from the most existing PPC approaches where the initial conditions of tracking errors are required to be known, the newly proposed prescribed performance function (PPF) can relax such restrictions through choosing properly small initial values of PPF. Fuzzy logic systems (FLSs) are employed to handle unknown dynamics, and minimal learning parameter (MLP) technique is incorporated into the design for the purpose of alleviating computation burden. Closed-loop stability is rigorously proved via Lyapunov stability theory, and simulation results are eventually given to validate the effectiveness of the proposed control strategy.

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Event-Triggered Distributed Containment Control for Networked Hypersonic Flight Vehicles

Zuo

et al. 2023

IEEE Trans. Syst. Man Cybern, Syst.

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Learning-Based Distributed Containment Control for HFV Swarms Under Event-Triggered Communication

Zuo

et al. 2023

IEEE Trans. Aerosp. Electron. Syst.

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Yinghui Li

Realization of trajectory precise tracking for hypersonic flight vehicles with prescribed performances

Recommendations to mitigate against human health risks incurred due to energetic particle irradiation beyond low earth orbit/BLEO

Fuzzy Adaptive Prescribed Performance Fault-Tolerant Control for HFVs with Fixed-Time Convergence Guarantee

Event-Triggered Distributed Containment Control for Networked Hypersonic Flight Vehicles

Learning-Based Distributed Containment Control for HFV Swarms Under Event-Triggered Communication

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