Energy Evaluation Applied to Serial Manipulator

Authors

  • José Joel González-Barbosa Instituto Politécnico Nacional, Mexico City, Mexico
  • Erick-Alejandro González-Barbosa Instituto Tecnol´ogico Superior de Irapuato
  • Maximino-Antonio González-Palacios Universidad de Guanajuato
  • Luz-Antonio Aguilera-Cortés Universidad de Guanajuato
  • Carlos-Alberto Bernal-Martínez Instituto Tecnológico Superior de Irapuato

Keywords:

serial manipulators, Energy consumption, industrial robots

Abstract

Serial manipulators are highly used in industrial applications, and the need to minimize their energy consumption is apparent. Thus, in addition to the studies reported in the literature to this regard, the work presented here, shows that the variation of the torsion angles of a serial manipulator, impacts on its energy consumption. The dynamic models applied here, have been experimentally validated by monitoring the joint variables during the operation of a 3R adaptive prototype. The prototype characterization, allows to carry out the complete analysis of its behavior, emphasizing in the effect on the energy consumption based on the variation of the torsion angles, and with it, to validate its viability for designs at industrial level.

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Published

2021-02-24

How to Cite

González-Barbosa, J. J., González-Barbosa, E.-A., González-Palacios, M.-A., Aguilera-Cortés, L.-A., & Bernal-Martínez, C.-A. (2021). Energy Evaluation Applied to Serial Manipulator. IEEE Latin America Transactions, 19(2), 226–234. Retrieved from https://latamt.ieeer9.org/index.php/transactions/article/view/3107

Issue

Vol. 19 No. 2 (2021): Ordinary Issue

Section

Articles