Adaptive flight control for unmanned autonomous helicopter with external disturbance and actuator fault

• Main Authors: Kun Yan, Mou Chen, Qingxian Wu, Yuhui Wang
• Format: Article
• Language: English
• Published: Wiley 2019-11-01
• Series: The Journal of Engineering
• Subjects: control system synthesis; adaptive control; robust control; nonlinear control systems; control nonlinearities; fault tolerant control; helicopters; uncertain systems; attitude control; actuators; aircraft control; autonomous aerial vehicles; adaptive flight control; external disturbance; actuator fault; backstepping-based robust adaptive fault tolerant control scheme; attitude dynamic model; medium-scale unmanned autonomous helicopter; adaptive control approach; backstepping control technique; robust adaptive ftc law; controller design; tracking property
• Online Access: https://digital-library.theiet.org/content/journals/10.1049/joe.2019.1080

A backstepping-based robust adaptive fault tolerant control (FTC) scheme is proposed for the altitude and attitude dynamic model of the medium-scale unmanned autonomous helicopter (UAH) subjected to external disturbance and actuator fault. The external disturbance and actuator fault are integrated into the medium-scale UAH altitude and attitude dynamic model. Since the actuator fault is uncertain in occurring time instant, the adaptive control approach is adopted to compensate for its negative effect. Meanwhile, the upper bound of external disturbance is estimated and the estimation is employed to design the controller. Based on the backstepping control technique, a robust adaptive FTC law is developed, which guarantees the desired system stability as well as the satisfactory tracking property. Simulation studies verify the effectiveness of the designed controller.