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Bimanual robot control for surface treatment tasks

Author

Listed:
  • Alberto García
  • J. Ernesto Solanes
  • Luis Gracia
  • Pau Muñoz-Benavent
  • Vicent Girbés-Juan
  • Josep Tornero

Abstract

This work develops a method to perform surface treatment tasks using a bimanual robotic system, i.e. two robot arms cooperatively performing the task. In particular, one robot arm holds the workpiece while the other robot arm has the treatment tool attached to its end-effector. Moreover, the human user teleoperates all the six coordinates of the former robot arm and two coordinates of the latter robot arm, i.e. the teleoperator can move the treatment tool on the plane given by the workpiece surface. Furthermore, a force sensor attached to the treatment tool is used to automatically attain the desired pressure between the tool and the workpiece and to automatically keep the tool orientation orthogonal to the workpiece surface. In addition, to assist the human user during the teleoperation, several constraints are defined for both robot arms in order to avoid exceeding the allowed workspace, e.g. to avoid collisions with other objects in the environment. The theory used in this work to develop the bimanual robot control relies on sliding mode control and task prioritisation. Finally, the feasibility and effectiveness of the method are shown through experimental results using two robot arms.

Suggested Citation

  • Alberto García & J. Ernesto Solanes & Luis Gracia & Pau Muñoz-Benavent & Vicent Girbés-Juan & Josep Tornero, 2022. "Bimanual robot control for surface treatment tasks," International Journal of Systems Science, Taylor & Francis Journals, vol. 53(1), pages 74-107, January.
    • Handle: RePEc:taf:tsysxx:v:53:y:2022:i:1:p:74-107
    DOI: 10.1080/00207721.2021.1938279
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