Please use this identifier to cite or link to this item: http://repositorio.utec.edu.pe/handle/UTEC/102
Title: Embedded position control system of a manipulator using a robust nonlinear predictive control
Authors: Rojas, Moreno, Arturo
Keywords: Ingeniería Electrónica
Issue Date: 25-Nov-2013
Publisher: 16th International Conference on Advanced Robotics
Abstract: This paper deals with the implementation of a embedded position control system using a robust nonlinear predictive controller, which is employed to control simultaneously angular positions of the base and arm of an angular manipulator of 2DOF (2 Degrees of Freedom). The design of such control system requires the derivation of the dynamic nonlinear model of the manipulator, as well as the determination of the corresponding predictive control law. Intensive simulation studies permitted to find out the initial values of the tuning parameters of the predictive controller. A CRIO (Compact Reconfigurable Input/Output) device was used to embed the control system. Good performance of the predictive control system was verified via experimentation.
Description: Publicado en 16th International Conference on Advanced Robotics el 25/11/2013
URI: http://repositorio.utec.edu.pe/handle/UTEC/102
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