Using Capaciflectors for ORU Docking

E. Cheung, M. Manzo, R. Mcconnell
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引用次数: 3

Abstract

On-orbit servicing of spacecraft‘ will require the changeout of their components in space. These components are usually configured into Orbital Replacement Units (ORUs) so that they can be handled by astronauts performing Extra-Vehicular Activity (EVA). Current research in robotics concerning supplementing or replacing EVA use vision and force feedback. Unfortunately, these sensor modalities do not offer a simple way of sensing proximity and avoiding collisions between the ORU and the environment. We propose to use a capacitive sensor for the detection of proximity of the ORU to objects. This sensor provides position and orientation feedback, which can be useful in the positioning and alignment of the ORU with respect to the docking fixture. In this paper we describe an algorithm that has successfully docked and undocked an ORU in a space allowing less than 1” clearance without touching. The resulting algorithm is simple to implement, has modest computational requirements, and is able to continuously prevent collisions of the ORU with the environment.
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使用电容进行ORU对接
航天器的在轨维修将需要在太空中更换其部件。这些部件通常被配置成轨道替换单元(oru),以便宇航员执行舱外活动(EVA)时可以处理它们。目前机器人技术中关于补充或替代EVA的研究主要采用视觉和力反馈。不幸的是,这些传感器模式不能提供一种简单的方法来感知距离并避免ORU与环境之间的碰撞。我们建议使用电容式传感器来检测ORU与物体的接近程度。该传感器提供位置和方向反馈,这对于ORU相对于对接夹具的定位和对齐非常有用。在本文中,我们描述了一种算法,该算法成功地在允许小于1英寸间隙的空间中停靠和卸载ORU而不接触。由此产生的算法易于实现,具有适度的计算需求,并且能够持续防止ORU与环境的碰撞。
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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