Control of a Space Manipulator Capturing a Rotating Object in the Three-dimensional Space

2018 15th International Conference on Ubiquitous Robots (UR) Pub Date : 2018-06-01 DOI:10.1109/URAI.2018.8441888

Fangli Mou, Shuang Wu, Xuan Xiao, Zhang Tao, O. Ma

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引用次数: 6

Abstract

For space robots accomplishing the overwhelming majority of on-orbit servicing(OOS) missions, capture of a target object is the primary task. Capture of a rotating object in orbit is an especially important and challenging task for OOS such as orbital debris removal. This paper studies the control strategy for capturing a fast rotating object by a space manipulator from a floating spacecraft in the three-dimensional space. First, in order to simulate the real contact condition as much as possible, a contact dynamics model considering the effect of the contact geometry of the capture interfaces is built. Second, the control strategy is proposed by a combination of a resolved motion rate control method and hybrid impedance control technique. The stability is proved by Lyapunov theorem. Finally, a simulation example of a 7-joint manipulator capturing a rotating target object in the unrestricted three-dimensional space is conducted to verify the feasibility and efficiency of the control strategy. In the effect of the control law, relative velocity at the contact spots is reduced, and thus the target object at an initial rotation speed of 12 deg/s (2 rpm) is captured successfully.

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空间机械臂在三维空间捕捉旋转物体的控制

对于完成绝大多数在轨服务(OOS)任务的空间机器人来说，捕获目标物体是其首要任务。捕获轨道上旋转物体是OOS的一项特别重要和具有挑战性的任务，例如轨道碎片清除。研究了空间机械臂在三维空间中从漂浮航天器捕获快速旋转物体的控制策略。首先，为了尽可能地模拟真实接触条件，建立了考虑捕获界面接触几何形状影响的接触动力学模型;其次，将分解运动速率控制方法与混合阻抗控制技术相结合，提出了控制策略。用李亚普诺夫定理证明了其稳定性。最后，通过一个七关节机械臂在不受限制的三维空间中捕获旋转目标物体的仿真实例，验证了该控制策略的可行性和有效性。在控制律的作用下，降低了接触点处的相对速度，从而成功捕获了初始转速为12度/秒(2转/分)的目标物体。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2018 15th International Conference on Ubiquitous Robots (UR)

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