Title :
Adaptive self-calibration of vision-based robot systems
Author :
Liang, Ping ; Chang, Yuh Lin ; Hackwood, Susan
Author_Institution :
Center for Robotic Syst. in Microelectron., California Univ., Santa Barbara, CA, USA
Abstract :
An adaptive self-learning process to dynamically and continuously learn the transformation between the camera space and the robot space is discussed. The process is referred to as the adaptive self-calibration of hand-eye systems in which a visual-feedback-based self-learning process is used for dynamically and continuously learning the hand-eye transformation through repetitive operation trials. The hand-eye system calibration is used in situ and in real time while the system is operating. Recursive real-time implementation using adaptive and square-root Kalman filtering techniques is described and recent related research is reviewed. An experimental stereo-vision-based hand-eye system is described. Both simulation and experimental results are presented
Keywords :
Kalman filters; calibration; computer vision; learning systems; position control; robots; self-adjusting systems; adaptive Kalman filtering; adaptive self-calibration; hand-eye systems; square-root Kalman filtering; vision-based robot systems; visual-feedback-based self-learning process; Calibration; Cameras; Machine vision; Manipulator dynamics; Nonlinear equations; Optimization methods; Orbital robotics; Robot kinematics; Robot sensing systems; Robot vision systems;
Journal_Title :
Systems, Man and Cybernetics, IEEE Transactions on
