A digital state feedback control algorithm has been developed to obtain the near-minimum-time trajectory for the end-effector of a robot manipulator. In this algorithm, the poles of the linearized closed loop system are judiciously placed in the Z-plane to permit near-minimum-time response without violating the constraints on the actuator torques. The validity of this algorithm has been established using numerical simulations. A three-link manipulator is chosen for this purpose and the results are discussed for three different combinations of initial and final states.

Issue Section:
Research Papers
Topics:
Algorithms, Manipulators, Actuators, Closed loop systems, Computer simulation, End effectors, Poles (Building), State feedback, Trajectories (Physics)
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Copyright © 1987
 by ASME
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