Development of a Robotic Limb for Underwater Mobile Manipulation

2018 OCEANS - MTS/IEEE Kobe Techno-Oceans (OTO) Pub Date : 2018-05-28 DOI:10.1109/OCEANSKOBE.2018.8559128

J. Koch, T. Pailevanian, M. Garrett, C. Yahnker, Renuad Detry, D. Levine, M. Gildner

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引用次数: 8

Abstract

This paper presents the hardware design and development of the AquaSimian limb, a 7 degree of freedom robotic limb for performing manipulation tasks typical to the subsea servicing industry. Tasks are performed through a supervised autonomy framework that makes efficient use of operator input, 3D scene reconstructions, automated motion planning, and parameterized behaviors. The limb must robustly interact with its environment to perform tasks such as turning a subsea valve or inserting a hot stab. The limb features high power density actuators and a 6 degree of freedom force torque sensor. A custom 3-function robotic gripper mounted to the force torque sensor allows dexterous yet robust interaction with underwater task panels. The system includes capabilities to detect and autonomously respond to any leaks or motor faults by disconnecting motor power when the system is in an off-nominal state and notifying the operator through LED lighting on the Light Lids that seal the actuator assembly housings. This highly capable robotic limb serves as a testbed for JPL development of technologies for autonomous operation of mobile manipulation systems.

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水下移动操作机械臂的研制

本文介绍了AquaSimian肢体的硬件设计和开发，这是一种7自由度的机器人肢体，用于执行海底服务行业典型的操作任务。任务通过监督自治框架执行，该框架有效地利用了操作员输入、3D场景重建、自动运动规划和参数化行为。机械臂必须能与周围环境良好地相互作用，才能完成转动水下阀门或插入热刺等任务。该肢体具有高功率密度致动器和6自由度力扭矩传感器。安装在力扭矩传感器上的定制三功能机器人夹具可以与水下任务面板进行灵活而稳健的交互。该系统具有检测和自动响应任何泄漏或电机故障的功能，当系统处于非标称状态时，可以断开电机电源，并通过灯罩上的LED照明通知操作人员，从而密封执行器总成外壳。这种高性能的机器人肢体可以作为JPL开发移动操作系统自主操作技术的试验台。

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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2018 OCEANS - MTS/IEEE Kobe Techno-Oceans (OTO)

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