基于神经网络的倾斜旋翼飞机平台非线性自适应内模控制

Proceedings of the 2005 IEEE Midnight-Summer Workshop on Soft Computing in Industrial Applications, 2005. SMCia/05. Pub Date : 2005-06-28 DOI:10.1109/SMCIA.2005.1466940

Changjie Yu, Jihong Zhu, Zeng-qi Sun

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引用次数: 11

摘要

针对倾转旋翼飞机平台，设计了一种基于神经网络的自适应内模控制器。研究平台的行为，在某些方面，类似于倾斜旋翼飞机。所提出的控制结构可以减轻倾斜旋翼机的宽增益调度要求，补偿外部干扰和动态反演误差。该控制器包括在线学习的逆模型神经网络和离线训练的正演模型神经网络。李雅普诺夫稳定性分析保证了跟踪误差和网络参数是有界的。使用倾斜旋翼飞机平台演示了控制器的性能，在整个实验执行中，包括两个机舱倾斜飞行，具有一致的响应结果。

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Nonlinear adaptive internal model control using neural networks for tilt rotor aircraft platform

An adaptive internal model controller using neural networks is designed for a tilt rotor aircraft platform. The behavior of the research platform, in certain aspects, resembles that of a tilt rotor aircraft. The proposed control architecture can alleviate the requirement of extensive gain scheduling of tilt rotor aircraft and compensate external disturbances, as well as dynamic inversion error. The controller includes an online learning neural network of inverse model and an offline trained neural network of forward model. Lyapunov stability analysis guarantees tracking errors and network parameters are bounded. The performance of the controller is demonstrated using the tilt rotor aircraft platform, with consistent response outcomes throughout experimental performing, including two nacelles tilting flight.

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Proceedings of the 2005 IEEE Midnight-Summer Workshop on Soft Computing in Industrial Applications, 2005. SMCia/05.

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