Implementation of Force and Position Controllers for a 3DOF Parallel Manipulator

Cazalilla, Jose; Valles, Marina; Valera, Angel; Mata, Vicente; Diaz-Rodriguez, Miguel

doi:doi:10.1007/978-3-319-09858-6_34

by Jose Cazalilla, Marina Valles, Angel Valera, Vicente Mata, Miguel Diaz-Rodriguez

Abstract:

The aim of this paper is to present the development of real-time controllers for a parallel manipulator (PM) of 3 degrees of freedom. The robot is able to generate one translation movement and two rotational movements (roll and pitch). Some applications for this type of manipulators can be found in driving simulation and biomechanics (rehabilitation of lower members, for example). An open control architecture has been implemented for this robot, allowing to implement and validate different dynamic control schemes for 3DOF PM. Thus, the developed robot can be used as a test bench to validate different control schemes. This article presents how several position and force control schemes have been implemented.

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Reference:

Implementation of Force and Position Controllers for a 3DOF Parallel Manipulator (Jose Cazalilla, Marina Valles, Angel Valera, Vicente Mata, Miguel Diaz-Rodriguez), Chapter in Multibody Mechatronic Systems, Springer International Publishing, volume 25, 2015.

Bibtex Entry:

@incollection{cazalilla2015a,
  title={Implementation of Force and Position Controllers for a 3DOF Parallel Manipulator},
  author={Cazalilla, Jose and Valles, Marina and Valera, Angel and Mata, Vicente and Diaz-Rodriguez, Miguel},
  booktitle={Multibody Mechatronic Systems},
  pages={359--369},
  year={2015},
  series={Mechanisms and Machine Science},
  volume={25},
  publisher={Springer International Publishing},
  doi={doi:10.1007/978-3-319-09858-6_34},
  url={http://link.springer.com/chapter/10.1007/978-3-319-09858-6_34},
  isbn={978-3-319-09857-9},
  abstract={The aim of this paper is to present the development of real-time controllers for a parallel manipulator (PM) of 3 degrees of freedom. The robot is able to generate one translation movement and two rotational movements (roll and pitch). Some applications for this type of manipulators can be found in driving simulation and biomechanics (rehabilitation of lower members, for example). An open control architecture has been implemented for this robot, allowing to implement and validate different dynamic control schemes for 3DOF PM. Thus, the developed robot can be used as a test bench to validate different control schemes. This article presents how several position and force control schemes have been implemented.},
  keywords={Parallel manipulator; Robot control; Force control; Mechatronics Kinematics},
}