TY - GEN
T1 - Pose control of mobile manipulators with an uncalibrated eye-in-hand vision system
AU - Tsay, T. I.James
AU - Chang, C. J.
PY - 2004
Y1 - 2004
N2 - Mobile manipulators, which consist of a mobile base and a robot manipulator equipped with a vision system, are appropriate for transferring small quantities of a range of different materials in production lines. Position and orientation errors of the mobile base relative to the station are inevitably caused by the non-horizontality of the ground and positioning errors of the mobile base. Hence, this study utilizes an uncalibrated eye-in-hand vision system to provide visual information for controlling the manipulator mounted on the mobile base, to pick up a workplace located on the station. A vision-guided control strategy is proposed. It is based on selected image features and an image-based look-and-move control structure. The control law employed in the control structure is based mainly on the off-line estimate of the trasformation from feature space to Cartesian space using the least squares estimation algorithm. Finally, the positioning performance of the eye-in-hand manipulator is experimentally evaluated by controlling the end-effector of the manipulator to approach and grasp the workpiece in various locations on a station..
AB - Mobile manipulators, which consist of a mobile base and a robot manipulator equipped with a vision system, are appropriate for transferring small quantities of a range of different materials in production lines. Position and orientation errors of the mobile base relative to the station are inevitably caused by the non-horizontality of the ground and positioning errors of the mobile base. Hence, this study utilizes an uncalibrated eye-in-hand vision system to provide visual information for controlling the manipulator mounted on the mobile base, to pick up a workplace located on the station. A vision-guided control strategy is proposed. It is based on selected image features and an image-based look-and-move control structure. The control law employed in the control structure is based mainly on the off-line estimate of the trasformation from feature space to Cartesian space using the least squares estimation algorithm. Finally, the positioning performance of the eye-in-hand manipulator is experimentally evaluated by controlling the end-effector of the manipulator to approach and grasp the workpiece in various locations on a station..
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M3 - Conference contribution
AN - SCOPUS:14044269662
SN - 0780384636
T3 - 2004 IEEE/RSJ International Conference on Intelligent Robots and Systems (IROS)
SP - 3033
EP - 3038
BT - 2004 IEEE/RSJ International Conference on Intelligent Robots and Systems (IROS)
T2 - 2004 IEEE/RSJ International Conference on Intelligent Robots and Systems (IROS)
Y2 - 28 September 2004 through 2 October 2004
ER -