Adaptive force/position control of robot manipulators

In this paper, a new synthesis method of force/position control systems of robot manipulators is proposed. The control systems synthesized on the basis of this method without using force/moment sensors and other additional devices provide simultaneous accurate control of both the position of robotpsilas end-effector and the force (may be variable) exerted by end-effector on some object (or environment). The results of simulation of PUMA manipulator are presented. They confirm efficiency of the proposed method. Realization of synthesised control systems does not have large difficulties. These control systems can be realized with the help of a serial microprocessors.

[1]  Homayoun Seraji,et al.  Force Tracking in Impedance Control , 1997, Int. J. Robotics Res..

[2]  Bruno Siciliano,et al.  Robust hybrid force/position control with experiments on an industrial robot , 1999, 1999 IEEE/ASME International Conference on Advanced Intelligent Mechatronics (Cat. No.99TH8399).

[3]  Neville Hogan,et al.  Impedance Control: An Approach to Manipulation: Part I—Theory , 1985 .

[4]  H. Harry Asada,et al.  Robot impedance generation from logic task description through progressive learning , 1997, Proceedings of International Conference on Robotics and Automation.

[5]  C. M. Kwan Hybrid force/position control for manipulators with motor dynamics using a sliding-adaptive approach , 1995, Proceedings of 1995 American Control Conference - ACC'95.

[6]  Hans P. Geering,et al.  Optimal control with engineering applications , 2007 .

[7]  V. F. Filaretov A Synthesis Of Adaptive Control Systems For Industrial Robots , 1993, Proceedings of Japan International Electronic Manufacturing Technology Symposium.

[8]  Dimitry Gorinevsky,et al.  Force Control of Robotics Systems , 1998 .

[9]  V. F. Filaretov,et al.  Synthesis of adaptive robot control systems for simplified forms of driving torques , 1995 .

[10]  Tsuneo Yoshikawa,et al.  Force control of robot manipulators , 2000, Proceedings 2000 ICRA. Millennium Conference. IEEE International Conference on Robotics and Automation. Symposia Proceedings (Cat. No.00CH37065).

[11]  Tsuneo Yoshikawa,et al.  Dynamic hybrid position/force control of robot manipulators--Description of hand constraints and calculation of joint driving force , 1986, IEEE Journal on Robotics and Automation.

[12]  Li-Chen Fu,et al.  A new adaptive fuzzy hybrid force/position control for intelligent robot deburring , 1999, Proceedings 1999 IEEE International Conference on Robotics and Automation (Cat. No.99CH36288C).