Optimal attitude tracking control for an unmanned aerial quadrotor under lumped disturbances

The robust control problem in attitude tracking of an unmanned aerial vehicle quadrotor is a challenging task due to strong parametric uncertainties, large nonlinearities and high couplings in flight dynamics. In this paper, a continuous nonsingular fast terminal sliding mode controller based on lin...

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Vydáno v:	International journal of micro air vehicles Ročník 12
Hlavní autoři:	Ding, Li, Li, Yangmin
Médium:	Journal Article
Jazyk:	angličtina
Vydáno:	London, England SAGE Publications 2020 Sage Publications Ltd
Témata:	Adaptive algorithms Adaptive control Aerodynamics Attitude control Control methods Controllers Couplings Disturbances Optimization Robust control Sliding mode control State observers Tracking control Uncertainty Unmanned aerial vehicles Unmanned helicopters terminal sliding mode attitude tracking control fruit fly optimization algorithm linear extended state observer Quadrotor
ISSN:	1756-8293, 1756-8307
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Abstract	The robust control problem in attitude tracking of an unmanned aerial vehicle quadrotor is a challenging task due to strong parametric uncertainties, large nonlinearities and high couplings in flight dynamics. In this paper, a continuous nonsingular fast terminal sliding mode controller based on linear extended state observer is proposed for attitude tracking control of a quadrotor under lumped disturbances. The proposed control method requires no prior knowledge of the attitude dynamics. It can ensure rapid convergence rate and high tracking precision due to terminal sliding mode surface and fast reaching law. The controller uses the linear extended state observer to reject the influence of both parametric uncertainties and external disturbances. Meanwhile, the nonsingular fast terminal sliding mode control strategy is designed to ensure the state variables to slide to desired points in finite time. To enhance the control performance, a self-adaptive fruit fly optimization algorithm is applied to parameters tuning of the proposed controller. The effectiveness of the proposed control approach is illustrated through numerical simulations and experimental verification.
AbstractList	The robust control problem in attitude tracking of an unmanned aerial vehicle quadrotor is a challenging task due to strong parametric uncertainties, large nonlinearities and high couplings in flight dynamics. In this paper, a continuous nonsingular fast terminal sliding mode controller based on linear extended state observer is proposed for attitude tracking control of a quadrotor under lumped disturbances. The proposed control method requires no prior knowledge of the attitude dynamics. It can ensure rapid convergence rate and high tracking precision due to terminal sliding mode surface and fast reaching law. The controller uses the linear extended state observer to reject the influence of both parametric uncertainties and external disturbances. Meanwhile, the nonsingular fast terminal sliding mode control strategy is designed to ensure the state variables to slide to desired points in finite time. To enhance the control performance, a self-adaptive fruit fly optimization algorithm is applied to parameters tuning of the proposed controller. The effectiveness of the proposed control approach is illustrated through numerical simulations and experimental verification.
Author	Ding, Li Li, Yangmin
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Keywords	terminal sliding mode attitude tracking control fruit fly optimization algorithm linear extended state observer Quadrotor
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SubjectTerms	Adaptive algorithms Adaptive control Aerodynamics Attitude control Control methods Controllers Couplings Disturbances Optimization Robust control Sliding mode control State observers Tracking control Uncertainty Unmanned aerial vehicles Unmanned helicopters
Title	Optimal attitude tracking control for an unmanned aerial quadrotor under lumped disturbances
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