Nonlinear Engineering (Feb 2023)

Dynamics and attitude control of space-based synthetic aperture radar

  • Khoroshylov Serhii,
  • Martyniuk Serhii,
  • Sushko Oleksandr,
  • Vasyliev Volodymyr,
  • Medzmariashvili Elguja,
  • Woods William

DOI
https://doi.org/10.1515/nleng-2022-0277
Journal volume & issue
Vol. 12, no. 1
pp. 3755 – 69

Abstract

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This work tackles the problem of attitude control of a space-based synthetic aperture radar with a deployable reflector antenna, representing a lightly damped uncertain vibratory system with highly nonlinear dynamics. A control strategy based on two identifiable in-orbit vector parameters is proposed to make the robust controller less conservative. The first parameter is used in the feedforward loop to achieve a trade-off between the energy efficiency of maneuvers and the amplitudes of the oscillatory response. The feedback loop utilizes the second parameter to accurately handle the controller-structure interactions by adaptive notch filters. The notch filters are included in the augmented plant at the design stage to guarantee closed-loop robustness against disturbances, unmodeled dynamics, and parametric uncertainty. The system’s robustness and specified requirements are confirmed by formal criteria and numerical simulations using a realistic model of the flexible spacecraft.

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