论文信息 - Pole Placement Methods for Multivariable Control of Robotic Manipulators

Pole Placement Methods for Multivariable Control of Robotic Manipulators

In current industrial practice an independent servo loop is used for the control of each joint of a robot arm. Dynamic coupling among subsystems as well as changes in the effective loading are either neglected or cancelled by feedforward compensation. These dynamic effects are often significant enough to cause the motion to be jerky and uncoordinated when they are neglected. In this paper efficient methods for multivariable control of robotic manipulators based upon pole placement by state feedback are presented as an improved method of path control. An example of the computations for a three-link robot arm and computer simulation experiments are given.

[1] S. C. Garg,et al. Linear state-feedback control of manipulators , 1981 .

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

[3] C.s.g. Lee,et al. An adaptive control strategy for mechanical manipulators , 1984 .

[4] C. Lin,et al. Formulation and optimization of cubic polynomial joint trajectories for industrial robots , 1983 .

[5] L. Shieh,et al. Transformations of a class of multivariable control systems to block companion forms , 1982 .

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

[7] C. S. George Lee,et al. Robot Arm Kinematics, Dynamics, and Control , 1982, Computer.

[8] M. H. Raibert,et al. Manipulator control using the configuration space method , 1978 .