机器人2号-在国际空间站上的初步活动

M. Diftler, T. Ahlstrom, Robert O. Ambrose, Nicolaus A. Radford, Charles Joyce, N. Peña, Adam Parsons, A. L. Noblitt
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引用次数: 50

摘要

机器人2号,或R2,于2011年2月抵达国际空间站,目前正在进行测试,为它最初成为一个舱内活动(IVA)工具,然后演变成一个可以执行舱外活动(EVA)的系统做准备。在完成一系列系统级检查以确保机器人在亚特兰蒂斯号航天飞机上良好运行后,地面控制人员将远程控制机器人执行自由空间任务,这将有助于表征地球和零重力控制之间的差异。在大约一年的时间里,固定基地R2将使用与机器人一起发射的可重构任务板进行各种实验。在与人类宇航员并肩工作时,机器人2号将启动开关,使用标准工具,操作空间站接口,软货物和电缆。这些实验的结果将证明一个灵巧的类人机器人可以在太空中执行广泛的任务,它们将有助于改进用于控制太空和地球上灵巧机器人的方法。在美国实验室模块的固定支柱上对R2进行评估的试验期结束后,美国宇航局计划发射攀爬腿,当它连接到目前在轨的R2上半身时,将使机器人能够穿越空间站,并开始协助机组人员进行一般的IVA维护活动。在这个特殊的国际空间站测试环境中,将评估多种控制模式,为机器人在eva期间的使用做准备。地面控制人员将远程监督机器人执行半自主脚本,以便在空间站上爬行并与IVA接口交互。IVA的工作人员将使用相同的脚本在当地监督机器人,并远程操作机器人来模拟机器人单独工作或在太空行走时作为助手的场景。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Robonaut 2 — Initial activities on-board the ISS
Robonaut 2, or R2, arrived on the International Space Station in February 2011 and is currently undergoing testing in preparation for it to become, initially, an Intra-Vehicular Activity (IVA) tool and then evolve into a system that can perform Extra-Vehicular Activities (EVA). After the completion of a series of system level checks to ensure that the robot traveled well on-board the Space Shuttle Atlantis, ground control personnel will remotely control the robot to perform free space tasks that will help characterize the differences between earth and zero-g control. For approximately one year, the fixed base R2 will perform a variety of experiments using a reconfigurable task board that was launched with the robot. While working side-by-side with human astronauts, Robonaut 2 will actuate switches, use standard tools, and manipulate Space Station interfaces, soft goods and cables. The results of these experiments will demonstrate the wide range of tasks a dexterous humanoid can perform in space and they will help refine the methodologies used to control dexterous robots both in space and here on Earth. After the trial period that will evaluate R2 while on a fixed stanchion in the US Laboratory module, NASA plans to launch climbing legs that when attached to the current on-orbit R2 upper body will give the robot the ability to traverse through the Space Station and start assisting crew with general IVA maintenance activities. Multiple control modes will be evaluated in this extra-ordinary ISS test environment to prepare the robot for use during EVAs. Ground Controllers will remotely supervise the robot as it executes semi-autonomous scripts for climbing through the Space Station and interacting with IVA interfaces. IVA crew will locally supervise the robot using the same scripts and also teleoperate the robot to simulate scenarios with the robot working alone or as an assistant during space walks.
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