KONTUR-2: Force-feedback teleoperation from the international space station

2016 IEEE International Conference on Robotics and Automation (ICRA) Pub Date : 2016-05-16 DOI:10.1109/ICRA.2016.7487246

J. Artigas, R. Balachandran, Cornelia Riecke, Martin Stelzer, Bernhard M. Weber, J. Ryu, A. Albu-Schäffer

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引用次数: 78

Abstract

This paper presents a new robot controller for space telerobotics missions specially designed to meet the requirements of KONTUR-2, a German & Russian telerobotics mission that addressed scientific and technological questions for future planetary explorations. In KONTUR-2, Earth and ISS have been used as a test-bed to evaluate and demonstrate a new technology for real-time telemanipulation from space. During the August 2015' experiments campaign, a cosmonaut teleoperated a robot manipulator located in Germany, using a force-feedback joystick from the Russian segment of the International Space Station (ISS). The focus of the paper is on the design and performance of the bilateral controller between ISS joystick and Earth robot. The controller is based on a 4-Channels architecture in which stability is guaranteed through passivity and the Time Delay Power Network (TDPN) concept. We show how the proposed approach successfully fulfills mission requirements, specially those related to system operation through space links and internet channels, involving time delays and data losses of different nature.

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kontur2:来自国际空间站的力反馈远程操作

本文提出了一种新型的空间遥控机器人控制器，该控制器是为了满足德国和俄罗斯的kontur2遥控机器人任务的要求而设计的，该任务旨在解决未来行星探测的科学和技术问题。在konturr -2中，地球和国际空间站被用作评估和演示从空间进行实时远程操作的新技术的试验台。在2015年8月的实验活动中，一名宇航员使用来自国际空间站(ISS)俄罗斯部分的力反馈操纵杆，远程操作位于德国的机器人操纵器。本文重点研究了国际空间站操纵杆与地球机器人之间的双边控制器的设计与性能。该控制器基于4通道架构，通过无源性和时延电网(TDPN)概念来保证稳定性。我们展示了所提出的方法如何成功地满足任务要求，特别是那些与通过空间链接和互联网渠道的系统操作有关的要求，涉及不同性质的时间延迟和数据丢失。

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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2016 IEEE International Conference on Robotics and Automation (ICRA)

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