论文信息 - Robust Decoupling Control for Articulated Robot

Robust Decoupling Control for Articulated Robot

In an articulated robot, coupling forces are generated between the joints. To improve dynamic behavior and reduce the work cycle time, it is necessary to compensate for the force generated between the joints. In this paper, robot dynamics are expressed in a linear form by applying a gain scheduling method and then transformed into a discrete form. A simple control algorithm is proposed which can perform the decoupling and the pole assignment simultaneously by using an observer with a disturbance compensation function. The results, based on experiments with a SCARA-type robot, show that the proposed approach can compensate for the coupling force between joints.

Masatake Shiraishi | Akihiro Ito

[1] Sheng Liu,et al. Human Centered Control in Robotics and Consumer Product Design , 1993 .

[2] M. Tomizuka,et al. Linear quadratic design of decoupled preview controllers for robotic arms , 1985 .

[3] Yoichi Hori. Acceleration Controlled Type Servo System , 1988 .

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

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

[6] Kouhei Ohnishi,et al. Robust Motion Control by Disturbance Observer , 1993, J. Robotics Mechatronics.

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