International Journal of Control, Automation and Systems 2008; 6(1): 76-85
© The International Journal of Control, Automation, and Systems
Motivated by the fact that in many industrial robots the joint velocity is estimated from position measurements, the trajectory tracking of robot manipulators with output feedback is addressed in this paper. The fact that robot actuators have limited power is also taken into account. Let us notice that few solutions for the torque-bounded output feedback tracking control problem have been proposed. In this paper we contribute to this subject by presenting a theoretical reexamination of a known controller, by using the theory of singularly perturbed systems. Motivated by this analysis, a redesign of that controller is introduced. As another contribution, we present an experimental evaluation in a two degrees-of-freedom revolute-joint direct-drive robot, confirming the practical feasibility of the proposed approach.
Keywords Bounded torque input, output feedback, robot control, singularly perturbed systems, trajectory tracking.
International Journal of Control, Automation and Systems 2008; 6(1): 76-85
Published online February 1, 2008
Copyright © The International Journal of Control, Automation, and Systems.
Javier Moreno-Valenzuela, Víctor Santibáñez, and Ricardo Campa
CITEDI-IPN, Mexico
Motivated by the fact that in many industrial robots the joint velocity is estimated from position measurements, the trajectory tracking of robot manipulators with output feedback is addressed in this paper. The fact that robot actuators have limited power is also taken into account. Let us notice that few solutions for the torque-bounded output feedback tracking control problem have been proposed. In this paper we contribute to this subject by presenting a theoretical reexamination of a known controller, by using the theory of singularly perturbed systems. Motivated by this analysis, a redesign of that controller is introduced. As another contribution, we present an experimental evaluation in a two degrees-of-freedom revolute-joint direct-drive robot, confirming the practical feasibility of the proposed approach.
Keywords: Bounded torque input, output feedback, robot control, singularly perturbed systems, trajectory tracking.
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