Simulation analysis of a tethered space robot for space experiment on sounding rocket by JAXA/ISAS

2010 IEEE International Conference on Mechatronics and Automation Pub Date : 2010-10-07 DOI:10.1109/ICMA.2010.5589059

M. Nohmi, Jun Tanikawa, Takayuki Hosoda

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引用次数: 7

Abstract

This paper describes simulation analysis of a tethered robot for space experiment on the sounding rocket “S-520.” The tethered space robot is a new type of space robot connected to tether. The major advantage of the tethered space robot is that its attitude can be controlled under tether tension by its own link motion. The S-520 rocket rotates at 1Hz about the longitudinal axis, and performs tumbling within 10 degrees. Many times of microgravity experiment for a tethered space robot have been performed by parabolic flight by an airplane and by a drop capsule. However, a deployer for a tethered space robot may perform tumbling motion in practical mission. Due to limitation of time and space at microgravity experiment on the ground, verification and evaluation of motion analysis for a tethered space robot under tumbling condition are impossible. This paper describes simulation analysis and microgravity experiment in parabolic flight by an airplane, for S-520 experiment. The simulation analysis has evaluated influences of the rotation about the longitudinal axis of the rocket. The microgravity experiment confirmed the deployment sequence for the S-520 rocket experiment.

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JAXA/ISAS探空火箭空间实验系留空间机器人仿真分析

本文对S-520探空火箭空间实验用系留机器人进行了仿真分析。系留式空间机器人是一种采用系留连接的新型空间机器人。系绳空间机器人的主要优点是在系绳张力作用下，可以通过自身的连杆运动来控制其姿态。S-520火箭绕纵轴以1Hz的速度旋转，并在10度内进行翻滚。对系留空间机器人进行了多次微重力实验，包括飞机抛物线飞行和空投舱。然而，系留空间机器人的部署者在实际任务中可能会进行翻滚运动。由于地面微重力实验的时间和空间限制，无法对系留空间机器人在翻滚条件下的运动分析进行验证和评价。本文介绍了S-520飞机抛物飞行的仿真分析和微重力实验。仿真分析了绕火箭纵轴旋转的影响。微重力实验确认了S-520火箭实验的展开顺序。

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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2010 IEEE International Conference on Mechatronics and Automation

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