论文信息 - Traded and shared vision-force robot control for improved impact control

Traded and shared vision-force robot control for improved impact control

Many automated manufacturing processes require robots to interact with environment and to perform force/torque interaction such as mechanical assembly. Importantly, impact forces occur while robot and environment are in contact. Robot manipulators and control systems can experience instability or poor control performance after impacting with an environment. In this paper we combine vision and force feedback in shared/traded vision-force control to reduce the impact forces and to increase the performance of robot, by calculating the distance between robot's end-effector and the environment and reducing the speed according to it. Experimental results are presented to illustrate the performance of robot in two cases with and without vision feedback and to compare these results with simulation.

J. Suchy | M Bdiwi | A. Winkler | G. Zschocke

[1] Ganwen Zeng,et al. An overview of robot force control , 1997, Robotica.

[2] Pradeep K. Khosla,et al. Robotic manipulation using high bandwidth force and vision feedback , 1996 .

[3] Daniel E. Whitney,et al. Historical Perspective and State of the Art in Robot Force Control , 1985, Proceedings. 1985 IEEE International Conference on Robotics and Automation.

[4] Shahram Payandeh,et al. Control strategies for rodotic contact tasks: An experimental study , 1995, J. Field Robotics.

[5] Richard Volpe,et al. A theoretical and experimental investigation of explicit force control strategies for manipulators , 1993, IEEE Trans. Autom. Control..

[6] Yoshiaki Shirai,et al. Guiding a robot by visual feedback in assembling tasks , 1973, Pattern Recognit..

[7] Jing-Chung Shen,et al. PID tuning rules for second order systems , 2004, 2004 5th Asian Control Conference (IEEE Cat. No.04EX904).

[8] Peter I. Corke,et al. A tutorial on visual servo control , 1996, IEEE Trans. Robotics Autom..

[9] Alexander Winkler,et al. Novel joint space force guidance algorithm with laboratory robot system , 2005 .