Adaptive and robust control of quadrotor aircrafts with input saturation

This paper proposes a novel adaptive robust controller for the position and attitude tracking of quadrotor unmanned aerial vehicles subjected to additive disturbances and parameter uncertainties. The nonlinear dynamic equations of the quadrotor are obtained by using the Newton–Euler formalism. An em...

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Published in	Nonlinear dynamics Vol. 89; no. 1; pp. 255 - 265
Main Authors	Li, Shushuai, Wang, Yaonan, Tan, Jianhao
Format	Journal Article
Language	English
Published	Dordrecht Springer Netherlands 01.07.2017 Springer Nature B.V
Subjects	Actuators Adaptive control Aging aircraft Aircraft stability Attitude control Automotive Engineering Classical Mechanics Control Control stability Control systems Control theory Controllers Degradation Disturbances Dynamical Systems Engineering Errors Formalism Mathematical analysis Mechanical Engineering Nonlinear dynamics Nonlinear equations Original Paper Parameter uncertainty Robust control Satellite tracking Saturation Simulation Tracking errors Unmanned aerial vehicles Unmanned helicopters Vibration Input saturation Quadrotor aircrafts Saturation control Adaptive robust control
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Abstract	This paper proposes a novel adaptive robust controller for the position and attitude tracking of quadrotor unmanned aerial vehicles subjected to additive disturbances and parameter uncertainties. The nonlinear dynamic equations of the quadrotor are obtained by using the Newton–Euler formalism. An emendatory tracking error is introduced to the modified controller to prevent the system and adaption law from degradation or even instability due to control input saturation caused by actuator constraints. The stability of the closed-loop aircraft system under the proposed control law is guaranteed via Lyapunov theory despite the sustained disturbances and actuator saturation. Simulation results are presented to demonstrate the effectiveness of the proposed control method, and the robustness against unknown nonlinear dynamics caused by parametric uncertainties.
AbstractList	This paper proposes a novel adaptive robust controller for the position and attitude tracking of quadrotor unmanned aerial vehicles subjected to additive disturbances and parameter uncertainties. The nonlinear dynamic equations of the quadrotor are obtained by using the Newton–Euler formalism. An emendatory tracking error is introduced to the modified controller to prevent the system and adaption law from degradation or even instability due to control input saturation caused by actuator constraints. The stability of the closed-loop aircraft system under the proposed control law is guaranteed via Lyapunov theory despite the sustained disturbances and actuator saturation. Simulation results are presented to demonstrate the effectiveness of the proposed control method, and the robustness against unknown nonlinear dynamics caused by parametric uncertainties.
Author	Li, Shushuai Wang, Yaonan Tan, Jianhao
Author_xml	– sequence: 1 givenname: Shushuai surname: Li fullname: Li, Shushuai email: shsli@hnu.edu.cn organization: College of Electrical and Information Engineering, Hunan University, National Engineering Laboratory for Robot Visual Perception and Control Technology – sequence: 2 givenname: Yaonan surname: Wang fullname: Wang, Yaonan organization: College of Electrical and Information Engineering, Hunan University, National Engineering Laboratory for Robot Visual Perception and Control Technology – sequence: 3 givenname: Jianhao surname: Tan fullname: Tan, Jianhao organization: College of Electrical and Information Engineering, Hunan University, National Engineering Laboratory for Robot Visual Perception and Control Technology
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Keywords	Input saturation Quadrotor aircrafts Saturation control Adaptive robust control
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Snippet	This paper proposes a novel adaptive robust controller for the position and attitude tracking of quadrotor unmanned aerial vehicles subjected to additive...
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SubjectTerms	Actuators Adaptive control Aging aircraft Aircraft stability Attitude control Automotive Engineering Classical Mechanics Control Control stability Control systems Control theory Controllers Degradation Disturbances Dynamical Systems Engineering Errors Formalism Mathematical analysis Mechanical Engineering Nonlinear dynamics Nonlinear equations Original Paper Parameter uncertainty Robust control Satellite tracking Saturation Simulation Tracking errors Unmanned aerial vehicles Unmanned helicopters Vibration
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Title	Adaptive and robust control of quadrotor aircrafts with input saturation
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