Towards ergonomie control of human-robot co-manipulation and handover

L. Peternel, Wansoo Kim, J. Babič, A. Ajoudani
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引用次数: 72

Abstract

In this paper, we propose a novel method for the control of human-robot eo-manipulation that takes into aeeount the ergonomie requirements for the human eo-worker. The robot uses a whole-body dynamic model of the human to optimise for the position of the eo-manipulation task in the workspace. In this configuration, the overloading joint torques, i.e. the effects of an external load in human body joints, are minimised. In addition, the optimisation process ineludes several constraints, sueh as human arm manipulability properties, to ensure that the human has a good manipulation eapaeity in the given eonfiguration. The main advantage of this approaeh is that the robot ean potentially help to reduee the work-related strain and increase the productivity of the human eo-worker. In addition, the on-line estimation of the overloading joint torques does not require an external foree plate or sensor insoles. We validated the proposed method with experiments in two eo-manipulation tasks: human using a device to polish an object that is delivered by the robot and a human-robot object handover. The results show that the proposed method is successful in achieving the ergonomie conditions for the human during the eollaboration.
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面向人机协同操作与切换的人机工效控制
在本文中,我们提出了一种新的人机操作控制方法,该方法考虑了对人类机器人的工效学要求。该机器人使用人体的全身动力学模型来优化eo操作任务在工作空间中的位置。在这种结构中,过载关节扭矩,即外部负载对人体关节的影响,被最小化。此外,优化过程还包含了人体手臂可操纵性等约束条件,以确保人体在给定构型下具有良好的操作能力。这种方法的主要优点是,机器人可以潜在地帮助减少与工作有关的压力,提高人类eo工人的生产力。此外,过载关节扭矩的在线估计不需要外部前板或传感器鞋垫。我们通过实验验证了所提出的方法在两个eo操作任务中:人类使用设备抛光机器人交付的物体和人机物体移交。结果表明,所提出的方法成功地满足了人体在协同过程中的工效条件。
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