A simulated risk assessment of human-robot interaction in the domestic environment

T. E. Kaonain, Mohd Azizi Abdul Rahman, M. Ariff, K. Mondal
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引用次数: 1

Abstract

In human-robot interaction, the use of collaborative robots or cobots in many industries is of major importance to researchers in human-robot interaction (HRI). The interaction between human robot carries several challenges, the greatest being the risk of human injury. In addition to reducing the proximity between robots and humans, increased difficulty of human-robot encounters raises the likelihood of accidents only. This paper proposes a virtual collaborative robot in the simulated non-industrial workspace. The safety during human-robot interaction using simulation software was investigated by measuring the risks for planning and control. A reactive robot controller was formulated to minimize the risk during human-robot interaction. A Gazebo software is used in this article, written in Python language, to replicate complex environments that a robot can face. This paper also investigated the robot’s speed. It can be reduced before a collision with a human about to happen, and it minimized the risk of the collision or reduced the damage of the risk. After the successful simulation, this can be applied to the real robot in a practical domestic environment.
家用环境中人机交互的模拟风险评估
在人机交互中,协作机器人或cobot在许多行业的使用对人机交互(HRI)的研究人员具有重要意义。人类与机器人之间的互动带来了几个挑战,最大的挑战是人类受伤的风险。除了减少机器人和人类之间的距离外,人类与机器人相遇的难度增加只会增加事故的可能性。本文提出了一种在模拟非工业工作空间中的虚拟协作机器人。通过测量计划和控制的风险,使用仿真软件研究了人机交互过程中的安全性。提出了一种反应式机器人控制器,以最大限度地降低人机交互过程中的风险。本文使用了一个用Python语言编写的Gazebo软件来复制机器人可能面临的复杂环境。本文还研究了机器人的速度。它可以在与人类发生碰撞之前减少,并将碰撞风险降至最低或降低风险的损害。仿真成功后,可以在实际的国内环境中应用于真实的机器人。
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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CiteScore
6.80
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