基于同构的欠驱动无人飞行器视觉伺服控制几何方法

Zhenyu Qian, Yuanshuai Dong, Yun-Xuan Hou, Hong Zhang, Shuangwen Fan, Hang Zhong
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引用次数: 0

摘要

本文提出了一种新的几何控制方法,用于基于同构的欠驱动无人机视觉伺服控制。为了解决几何控制在 HBVS 中的应用难题,探索一种可应用于空中探测作业的视觉伺服控制技术,本文将几何控制融入视觉伺服框架,设计了一种新的基于同构的几何视觉伺服控制器。外环利用两幅图像之间的虚拟同构矩阵作为反馈信息。内环通过几何控制来控制无人机的方向。根据 Lyapunov 理论证明了所提出控制器的稳定性。与传统的视觉伺服方法相比,所提出的方法具有更好的瞬态性能和动态性能。大量实验证明了控制器的卓越性能。此外,还演示了该控制器在无人驾驶航空机械手上的应用。
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A geometric approach for homography-based visual servo control of underactuated UAVs
This paper proposes a new geometric control method for homography-based visual servo control of Underactuated UAVs. In order to solve the application difficulties of geometric control in HBVS and explore a visual servo control technology that can be applied to aerial detection operations, this paper integrates the geometric control into the visual servoing framework and design a new homography-based geometric visual servoing controller. The outer loop is used as feedback information using the virtual homography matrix between the two images. The inner loop controls the orientation of the UAVs through geometric control. The stability of the proposed controller is proved based on Lyapunov’s theory. The proposed method has better transient performance and dynamic performance than the conventional visual servo method. The excellent performance of the controller has been proven by a large number of experiments. In addition, the application of the controller on an unmanned aerial manipulator is demonstrated.
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