Speed and Separation Monitoring using on-robot Time--of--Flight laser--ranging sensor arrays
read the original abstract
In this paper, a speed and separation monitoring (SSM) based safety controller using three time-of-flight ranging sensor arrays fastened to the robot links, is implemented. Based on the human-robot minimum distance and their relative velocities, a controller output characterized by a modulating robot operation speed is obtained. To avert self-avoidance, a self occlusion detection method is implemented using ray-casting technique to filter out the distance values associated with the robot-self and the restricted robot workspace. For validation, the robot workspace is monitored using a motion capture setup to create a digital twin of the human and robot. This setup is used to compare the safety,performance and productivity of various versions of SSM safety configurations based on minimum distance between human and robot calculated using on-robot Time-of-Flight sensors, motion capture and a 2D scanning lidar.
This paper has not been read by Pith yet.
Forward citations
Cited by 2 Pith papers
-
Sensing Volume Coverage of Robot Workspace using On-Robot Time-of-Flight Sensor Arrays for Safe Human Robot Interaction
Proposes an octree volumetry method to quantify sensing coverage of on-robot ToF sensor array rings and evaluates multiple configurations for safe human-robot interaction.
-
A Framework for Monitoring Human Physiological Response during Human Robot Collaborative Task
A framework is described for continuous physiological data collection in HRC tasks via synchronized human-robot event markers, with two case studies and a visualization tool.
discussion (0)
Sign in with ORCID, Apple, or X to comment. Anyone can read and Pith papers without signing in.