Optimization of the Speed & Separation Monitoring Protective Separation Distance in Human-Robot Collaboration Safety Systems

2022 7th International Conference on Mechanical Engineering and Robotics Research (ICMERR) Pub Date : 2022-12-09 DOI:10.1109/ICMERR56497.2022.10097793

Nitin Nandeshwar, J. Humphries, Nehal Amer

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Abstract

Efforts to create a safe collaborative working environment between humans and industrial robots are the subject of research interests. As per the current trend in industries, when a human enters a robot's workspace protected by fences, the safety system stops the robot. So, full efficiency is not realized as there is an increase in the robot's downtime. One solution is to enable a fluid human-robot collaboration in the same workspace in which the robot's need to stop is reduced. However, not stopping the robot leads to a potential risk of collision between the human and the robot. According to ISO/TS 15066, Safety control schemes based on speed and separation monitoring allow human operators to share the same workspace as the robot while in motion. The robot motion and velocity are dependent on the distance between the operator and the robot. In this paper, we examine how the researchers attempt to reduce the protective separation distance (PSD) between the robot and the human for human-robot collaboration work and modify its equation to identify scope for efficiency.

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人机协作安全系统中速度与分离监测保护分离距离的优化

努力在人类和工业机器人之间创造一个安全的协作工作环境是研究兴趣的主题。根据目前的工业趋势，当有人进入有围栏保护的机器人工作空间时，安全系统会阻止机器人。因此，由于机器人的停机时间增加，无法实现充分的效率。一种解决方案是在相同的工作空间中实现人与机器人的流畅协作，从而减少机器人停下来的需要。然而，不停止机器人会导致人与机器人之间发生碰撞的潜在风险。根据ISO/TS 15066，基于速度和分离监测的安全控制方案允许人类操作员在运动时与机器人共享相同的工作空间。机器人的运动和速度取决于操作者和机器人之间的距离。在本文中，我们研究了研究人员如何试图减少人机协作工作中机器人与人之间的保护分离距离(PSD)，并修改其方程以确定效率范围。

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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2022 7th International Conference on Mechanical Engineering and Robotics Research (ICMERR)

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