Supervisory control of a humanoid robot in microgravity for manipulation tasks

2017 IEEE/RSJ International Conference on Intelligent Robots and Systems (IROS) Pub Date : 2017-09-24 DOI:10.1109/IROS.2017.8206229

Logan Farrell, Philip Strawser, K. Hambuchen, W. Baker, Julia M. Badger

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引用次数: 9

Abstract

Teleoperation is the dominant form of dexterous robotic tasks in the field. However, there are many use cases in which direct teleoperation is not feasible such as disaster areas with poor communication as posed in the DARPA Robotics Challenge or robot operations on spacecraft far from Earth. Presented is a solution that combines the Affordance Template Framework for object interaction with TaskForce for supervisory control in order to accomplish high-level task objectives with basic autonomous behavior from the robot. This framework has allowed the robot to take corrective actions before requesting assistance from the user. This work is demonstrated with Robonaut 2 removing a Cargo Transfer Bag from a simulated logistics resupply vehicle for spaceflight using a single operator command. This was executed with 80% success with no human involvement and 95% success with limited human interaction. This technology sets the stage to do any number of high-level tasks using a similar framework, allowing the robot to accomplish tasks with minimal to no human interaction.

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仿人机器人微重力操作任务的监督控制

远程操作是该领域灵巧机器人任务的主要形式。然而，在许多用例中，直接远程操作是不可行的，例如DARPA机器人挑战赛中提出的通信不良的灾区或远离地球的航天器上的机器人操作。提出了一种将用于对象交互的功能模板框架与用于监督控制的任务组相结合的解决方案，以实现具有机器人基本自主行为的高级任务目标。这个框架允许机器人在请求用户帮助之前采取纠正措施。这项工作通过Robonaut 2使用单个操作员命令从模拟后勤补给飞行器上移除货物转移袋进行演示。在没有人工干预的情况下，成功率为80%，在人工干预有限的情况下，成功率为95%。这项技术为使用类似的框架完成任何数量的高级任务奠定了基础，允许机器人在最少甚至没有人类交互的情况下完成任务。

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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来源期刊

2017 IEEE/RSJ International Conference on Intelligent Robots and Systems (IROS)

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