Journal
AEROSPACE SCIENCE AND TECHNOLOGY
Volume 142, Issue -, Pages -Publisher
ELSEVIER FRANCE-EDITIONS SCIENTIFIQUES MEDICALES ELSEVIER
DOI: 10.1016/j.ast.2023.108633
Keywords
Hypersonic morphing vehicle; Dynamic sliding mode control; Finite time control; Nonlinear disturbance observer; Fuzzy logic system
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This research focuses on the attitude-tracking problem of hypersonic morphing vehicles in the presence of multi-source uncertainties. It proposes the sliding mode control technique and a novel fixed-time disturbance observer to achieve fast, robust, and adaptive flight control.
This research discusses the attitude-tracking problem of hypersonic morphing vehicles (HMVs) in the presence of multi-source uncertainties. The hypersonic flight vehicle with variable-span wings is introduced. Considering the dramatic aerodynamic characteristic changes caused by morphing-span wings, strong robustness and great adaption are demanded. The sliding mode control technique is adopted to build the flight control system since the robustness is what the aircraft orders. In order to obtain fast attitude-tracking performance, the terminal function and adaptive laws are developed to achieve finite-time control with high adaptation to varying aerodynamic characteristics. For a hypersonic flight with guts, robustness enhancement is required. Therefore, a novel fixed-time disturbance observer is proposed to enhance the robustness against multi-source uncertainties. Unlike the existing finite-time observers, the settling time is independent of the initial conditions. Based on the disturbance observer and the adaptive technique, finite-time flight control is developed to provide strong robustness and adaptation, achieving uncertainty compensation. The effectiveness of the designed controller is revealed with the help of Lyapunov synthesis. Several flight scenarios are introduced to analyze the performance.(c) 2023 Elsevier Masson SAS. All rights reserved.
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