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Adaptive integral dynamic surface control of a hypersonic flight vehicle

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  • Waseem Aslam Butt
  • Lin Yan
  • Kendrick Amezquita S.

Abstract

In this article, non-linear adaptive dynamic surface air speed and flight path angle control designs are presented for the longitudinal dynamics of a flexible hypersonic flight vehicle. The tracking performance of the control design is enhanced by introducing a novel integral term that caters to avoiding a large initial control signal. To ensure feasibility, the design scheme incorporates magnitude and rate constraints on the actuator commands. The uncertain non-linear functions are approximated by an efficient use of the neural networks to reduce the computational load. A detailed stability analysis shows that all closed-loop signals are uniformly ultimately bounded and the L∞$\mathcal {L}_{\infty }$ tracking performance is guaranteed. The robustness of the design scheme is verified through numerical simulations of the flexible flight vehicle model.

Suggested Citation

  • Waseem Aslam Butt & Lin Yan & Kendrick Amezquita S., 2015. "Adaptive integral dynamic surface control of a hypersonic flight vehicle," International Journal of Systems Science, Taylor & Francis Journals, vol. 46(10), pages 1717-1728, July.
    • Handle: RePEc:taf:tsysxx:v:46:y:2015:i:10:p:1717-1728
    DOI: 10.1080/00207721.2013.828798
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    Cited by:

    1. Keighobadi, Jafar & Mohammadian KhalafAnsar, Hadi & Naseradinmousavi, Peiman, 2022. "Adaptive neural dynamic surface control for uniform energy exploitation of floating wind turbine," Applied Energy, Elsevier, vol. 316(C).

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