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所属单位：航空学院

发表刊物：JOURNAL OF GUIDANCE CONTROL AND DYNAMICS

关键字：CONTROL-LAW DESIGN RECURRENT NEURAL-NETWORKS REDUCED-ORDER MODELS LIMIT-CYCLE FLUTTER FEEDBACK-CONTROL SUBSPACE IDENTIFICATION AEROELASTIC SYSTEMS ROBUST-CONTROL AIRFOIL OSCILLATIONS

摘要：Conventional controls, such as an optimal control with a notch filter, are able to remove the flutter instability under subsonic flows but may need higher adaptability to make the controllers stable under transonic flows with oscillating shocks, especially for the wing model with parameter uncertainties. In this paper, an error-based control law designed via the active disturbance rejection control algorithm is proposed for the transonic flutter suppression of a wing model with parameter uncertainties and measurement noises taken into account. With the proposed control law, the observed output signal and its time derivative, the unmodeled dynamics, and the measurement noises are consistently estimated. The observed output signal and its time derivative are used to design a feedback control law for adjusting the output errors, whereas the observed unmodeled dynamics and the measurement noises are used to guarantee the adaptability and anti-interference of the proposed controller. To demonstrate the control performances, the wing of benchmark active control technology is studied for the transonic flutter suppression. The numerical results show that the present control law can effectively suppress the transonic flutter at a wide range of Mach numbers and has noticeable adaptability to the variation in stiffness parameters.

ISSN号：0731-5090

是否译文：否

发表时间：2017-11-01

合写作者：Yang, Zhijun,赵永辉,Hu, Haiyan

通讯作者：Yang, Zhijun,黄锐