Augmented Reality Interface for Robot-Sensor Coordinate Registration

Abstract

Accurate registration of Cartesian coordinate systems is necessary to facilitate metrology-based solutions for industrial robots in production environments. Conducting coordinate registration between industrial robots and their metrological systems requires measuring multiple points in the robot’s and sensor system’s coordinate frames. However, operators lack intuitive tools to interface, visualize, and characterize the quality of the selected points in the robot workspace for robot–sensor coordinate registration. This article proposes an augmented reality system for human-in-the-loop, robot–sensor coordinate registration to efficiently record and visualize the pose-dependent quality of computing the robot–sensor transformation. Furthermore, this work establishes metrics to define the relative quality of measurement points used in robot–sensor coordinate registration, which is shown by the augmented reality application. Experiments were conducted demonstrating the augmented reality environment in addition to investigating the pose dependency of the measurement point quality. The results indicate that the proposed metrics highlight the dependency of the poses on both robot and sensor placement and that the augmented reality system can provide a human-in-the-loop interface for robot–sensor coordinate registration.