Recovery Motion Learning for Arm Mounted Mobile Crawler Robot in Drive System’s Failure <ce:cross-ref refid='fn1'> <ce:sup loc='post'>*</ce:sup> </ce:cross-ref> <ce:footnote id='fn1'> <ce:label>*</ce:label> <ce:note-para id='npara0001' view='all'>This work was in part funded by ImPACT Program of Council for Science, Technology and Innovation (Cabinet Office, Government of Japan)</ce:note-para> </ce:footnote>

Tasuku Ito; Hitoshi Kono; Yusuke Tamura; Atsushi Yamashita; Hajime Asama

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This work was in part funded by ImPACT Program of Council for Science, Technology and Innovation (Cabinet Office, Government of Japan)

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Recovery Motion Learning for Arm Mounted Mobile Crawler Robot in Drive System’s Failure * * This work was in part funded by ImPACT Program of Council for Science, Technology and Innovation (Cabinet Office, Government of Japan)

机译：驱动系统出现故障时，用于武装移动履带机器人的恢复运动学习 * * 这项工作部分由理事会ImPACT计划资助科学技术与创新奖（日本政府内阁办公室）

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In the disaster area, an arm mounted crawler robot is leveraged for missions such as searching victims. However, the robot system has possibility of failure of drive system at the extreme environment. Moreover, the robot needs to keep moving to repair the mechanism, if the drive system becomes failure. In response to this problem, it is important to realize the recovery motion. However, designing of recovery motion is difficult because the recovery motion depends on the environments and configurations of the robot. This paper describes the learning methodology of the recovery motion in the single-arm mounted crawler robot, and we confirmed that the proposed system can learn the recovery motion in computer simulation.

机译：在灾区，一个手臂爬行机器人被用来执行诸如搜查受害者之类的任务。但是，机器人系统在极端环境下可能会导致驱动系统故障。此外，如果驱动系统出现故障，机器人需要继续移动以修理机械装置。针对该问题，重要的是实现恢复运动。但是，由于恢复运动取决于机器人的环境和配置，因此难以设计恢复运动。本文介绍了单臂履带机器人恢复运动的学习方法，并证实了该系统可以在计算机仿真中学习恢复运动。

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《IFAC PapersOnLine》 |2017年第1期|共6页
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Tasuku Ito; Hitoshi Kono; Yusuke Tamura; Atsushi Yamashita; Hajime Asama;
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中图分类自动化技术、计算机技术;
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Recovery Motion Learning for Arm Mounted Mobile Crawler Robot in Drive System’s Failure * * This work was in part funded by ImPACT Program of Council for Science, Technology and Innovation (Cabinet Office, Government of Japan)

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