Litcius/Paper detail

Robot–Camera Calibration in Tightly Constrained Environment Using Interactive Perception

Fangxun Zhong, Bin Li, Wei Chen, Yunhui Liu

2023IEEE Transactions on Robotics14 citationsDOI

Abstract

Manipulation in tight environment is challenging but increasingly common in vision-guided robotic applications. The significantly reduced amount of available feedback (limited visual cues, field of view, robot motion space, etc.) hinders solving the hand-eye relationship accurately. In this article, we propose a new generic approach for online robot–camera calibration that could deal with the least feedback input available in tight environment: an arbitrarily restricted motion space and a single feature point with unknown position for the robot end-effector. We introduce the interactive perception to generate prescribed but tunable robot motions to reveal high-dimensional sensory feedback, which is not obtainable from static images. We then define the interactive feature plane (IFP), whose spatial property corresponds to the robot-actuating trajectories. A depth-free adaptive controller is proposed based on image feedback, where the converged orientation of IFP directly harvests the data for solving the hand–eye relationship. Our algorithm requires neither external calibration sensors/objects nor large-scale data acquisition process. Simulations demonstrate the validity of our method to accurately calibrate different types of robot under various system set-ups. In experiments, we show good results of our algorithm in terms of accuracy and consistency under tight motion space compared to existing approaches using external objects and/or optimization.

Topics & Concepts

Computer visionArtificial intelligenceRobotComputer scienceRobot calibrationController (irrigation)Robot end effectorOrientation (vector space)Feature (linguistics)CalibrationProcess (computing)Mobile robotRobot controlMathematicsGeometryPhilosophyAgronomyLinguisticsBiologyStatisticsOperating systemAdvanced Vision and ImagingImage Processing Techniques and ApplicationsRobotics and Sensor-Based Localization