A multivariable control scheme for robot manipulators

Abstract

Abstract The article puts forward a simple scheme for multivariable control of robot manipulators to achieve trajectory tracking. The scheme is composed of an inner loop stabilizing controller and an outer loop tracking controller. The inner loop utilizes a multivariable PD controller to stabilize the robot by placing the poles of the linearized robot model at some desired locations. The outer loop employs a multivariable PID controller to achieve input‐output decoupling and trajectory tracking. The gains of the PD and PID controllers are related directly to the linearized robot model by simple closed‐form expressions. The controller gains are updated on‐line to cope with variations in the robot model during gross motion and for payload change. Alternatively, the use of high gain controllers for gross motion and payload change is discussed. Computer simulation results are given for illustration.