Title :
Machine vision system for the automatic identification of robot kinematic parameters
Author :
Rousseau, Patrick ; Desrochers, Alain ; Krouglicof, Nicholas
Author_Institution :
Walsh Autom., Montreal, Que., Canada
fDate :
12/1/2001 12:00:00 AM
Abstract :
This paper presents an efficient, noncontact measurement technique for the automatic identification of the real kinematic parameters of an industrial robot. The technique is based on least-squares analysis and on the Hayati and Mirmirani kinematic modeling convention for closed kinematic chains. The measurement system consists of a single camera mounted on the robot´s wrist. The camera measures position and orientation of a passive target in six degrees of freedom. Target position is evaluated by applying least-squares analysis on an overdetermined system of equations based on the quaternion representation of the finite rotation formula. To enhance the accuracy of the measurement, a variety of image processing functions including subpixel interpolation are applied
Keywords :
calibration; computer vision; industrial robots; least squares approximations; parameter estimation; robot kinematics; automatic identification; calibration; closed kinematic chains; finite rotation formula; image processing functions; industrial robot; least-squares analysis; machine vision system; noncontact measurement technique; orientation; overdetermined system; parameter identification; passive target; position; quaternion representation; real kinematic parameters; robot kinematic parameters; single camera; six degrees of freedom; subpixel interpolation; Cameras; Equations; Kinematics; Machine vision; Measurement techniques; Position measurement; Robot vision systems; Robotics and automation; Service robots; Wrist;
Journal_Title :
Robotics and Automation, IEEE Transactions on
