English

CoboGuider: Haptic Potential Fields for Safe Human-Robot Interaction

Robotics 2021-12-17 v2

Abstract

Modern industry still relies on manual manufacturing operations and safe human-robot interaction is of great interest nowadays. Speed and Separation Monitoring (SSM) allows close and efficient collaborative scenarios by maintaining a protective separation distance during robot operation. The paper focuses on a novel approach to strengthen the SSM safety requirements by introducing haptic feedback to a robotic cell worker. Tactile stimuli provide early warning of dangerous movements and proximity to the robot, based on the human reaction time and instantaneous velocities of robot and operator. A preliminary experiment was performed to identify the reaction time of participants when they are exposed to tactile stimuli in a collaborative environment with controlled conditions. In a second experiment, we evaluated our approach into a study case where human worker and cobot performed collaborative planetary gear assembly. Results show that the applied approach increased the average minimum distance between the robot's end-effector and hand by 44% compared to the operator relying only on the visual feedback. Moreover, the participants without the haptic support have failed several times to maintain the protective separation distance.

Keywords

Cite

@article{arxiv.2110.12940,
  title  = {CoboGuider: Haptic Potential Fields for Safe Human-Robot Interaction},
  author = {Viktor Rakhmatulin and Miguel Altamirano Cabrera and Fikre Hagos and Oleg Sautenkov and Jonathan Tirado and Ighor Uzhinsky and Dzmitry Tsetserukou},
  journal= {arXiv preprint arXiv:2110.12940},
  year   = {2021}
}

Comments

Accepted paper in SMC conference 2021, IEEE copyright

R2 v1 2026-06-24T07:09:47.070Z