Safety-aware trajectory scaling for Human-Robot Collaboration with prediction of human occupancy

M. Ragaglia, A. Zanchettin, P. Rocco
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引用次数: 37

Abstract

Planning and control of an industrial manipulator for safe Human-Robot Collaboration (HRC) is a difficult task because of two conflicting requirements: ensuring the worker's safety and completing the task assigned to the robot. This paper proposes a trajectory scaling algorithm for safe HRC that relies on real-time prediction of human occupancy. Knowing the space that the human will occupy within the robot stopping time, the controller can scale the manipulator's velocity allowing safe HRC and avoiding task interruption. Finally, experimental results are presented and discussed.
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基于人类占用预测的人机协作安全感知轨迹缩放
为了实现人机安全协作(HRC),工业机械手的规划和控制是一项困难的任务,因为这两个相互冲突的要求是:确保工人的安全并完成分配给机器人的任务。本文提出了一种基于实时预测人员占用情况的安全HRC轨迹缩放算法。该控制器了解机器人在停止时间内人类将占据的空间,可以调整机械手的速度,以实现安全HRC和避免任务中断。最后给出了实验结果并进行了讨论。
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