Control of robotic manipulators by joint acceleration controller

The authors propose a simple and high-performance motion control method for robot manipulators in Cartesian coordinates. It is called the acceleration tracing orientation method (ATOM). In the proposed method, it is necessary that each joint should trace the specified acceleration. A high-performance position controller and a hybrid position/force controller are easily realized by the ATOM. Analyses of the controller reveal that the precise acceleration controller is the key to improving the performance of the ATOM. However, an acceleration controller is almost impossible to realize by using conventional disturbance compensation methods. For example, the inverse dynamics is complicated to calculate and is weak against parameter variations. In contrast to the inverse dynamics, a disturbance observer method is simple and robust against the parameter variations and makes possible a high-performance acceleration controller. Experimental results show the effectiveness of the ATOM.<<ETX>>

[1]  E. Freund Fast Nonlinear Control with Arbitrary Pole-Placement for Industrial Robots and Manipulators , 1982 .

[2]  John J. Craig,et al.  Hybrid position/force control of manipulators , 1981 .

[3]  Toshiyuki Murakami,et al.  Force Feedback Control of Multi-Degrees-of-Freedom Robot Based on Acceleration , 1989 .

[4]  K. Ohnishi,et al.  Fast Motion Control Of Mechanical Manipulator For Path Tracking , 1988, Proceedings.14 Annual Conference of Industrial Electronics Society.

[5]  S. Komada,et al.  Robust Force And Compliance Control Of Robotic Manipulator , 1988, Proceedings.14 Annual Conference of Industrial Electronics Society.

[6]  J. Y. S. Luh,et al.  Resolved-acceleration control of mechanical manipulators , 1980 .

[7]  J. Y. S. Luh,et al.  Conventional controller design for industrial robots — A tutorial , 1983, IEEE Transactions on Systems, Man, and Cybernetics.

[8]  Kouhei Ohnishi,et al.  A Robust decentralized joint control based on interference estimation , 1987, Proceedings. 1987 IEEE International Conference on Robotics and Automation.

[9]  T. Umeno,et al.  Generalized robust servosystem design based on the parametrization of two degrees of freedom controllers , 1989, 20th Annual IEEE Power Electronics Specialists Conference.