Mechatronic Development of a Delta Robot Applied to MPS 500

Monica Alexandra Romero Sacoto; Angel Eugenio Cárdenas Cadme; Johan Adser Solano Romero; Danny Sebastian Pineda Campoverde

doi:10.1109/ETCM63562.2024.10746119

Mechatronic Development of a Delta Robot Applied to MPS 500

Monica Alexandra Romero Sacoto
, Angel Eugenio Cárdenas Cadme
, Johan Adser Solano Romero
, Danny Sebastian Pineda Campoverde

Grupo de Investigación en Sistemas Mecatrónicos (GISM)

Producción científica: Capítulo del libro/informe/acta de congreso › Contribución de conferencia › revisión exhaustiva

Resumen

This document is a description of the design and implementation of a delta robot model with position control. The mechanical design of the prototype is based on the requirements of the workspace, with a structural analysis that guarantees the coverage of the required area and the strength of the materials used.From the inverse kinematic analysis, a joint position control system is proposed based on a proportional, integral and derivative (PID) controller, designed to adapt to the programmed conditions of the mechanism. This control system is implemented in a programming interface developed in Python®.After the implementation phase, tests are carried out to evaluate the effectiveness and performance of the robot. These tests are based on error indicators, using the Mean Absolute Error (MAE) as the main indicator to quantify the difference between the desired positions and the positions reached by the robot.

Idioma original	Inglés
Título de la publicación alojada	ETCM 2024 - 8th Ecuador Technical Chapters Meeting
Editores	David Rivas-Lalaleo, Soraya Lucia Sinche Maita
Editorial	Institute of Electrical and Electronics Engineers Inc.
ISBN (versión digital)	9798350391589
DOI	https://doi.org/10.1109/ETCM63562.2024.10746119
Estado	Publicada - 2024
Evento	8th IEEE Ecuador Technical Chapters Meeting, ETCM 2024 - Cuenca, Ecuador Duración: 15 oct. 2024 → 18 oct. 2024

Serie de la publicación

Nombre	ETCM 2024 - 8th Ecuador Technical Chapters Meeting

Conferencia

Conferencia	8th IEEE Ecuador Technical Chapters Meeting, ETCM 2024
País/Territorio	Ecuador
Ciudad	Cuenca
Período	15/10/24 → 18/10/24

Nota bibliográfica

Publisher Copyright:
© 2024 IEEE.

Areas de Conocimiento del CACES

8217A Mecatrónica

Acceder al documento

10.1109/ETCM63562.2024.10746119

Otros archivos y enlaces

Enlace a la publicación en Scopus

Citar esto

Sacoto, M. A. R., Cadme, A. E. C., Romero, J. A. S., & Pineda Campoverde, D. S. (2024). Mechatronic Development of a Delta Robot Applied to MPS 500. En D. Rivas-Lalaleo, & S. L. S. Maita (Eds.), ETCM 2024 - 8th Ecuador Technical Chapters Meeting (ETCM 2024 - 8th Ecuador Technical Chapters Meeting). Institute of Electrical and Electronics Engineers Inc.. https://doi.org/10.1109/ETCM63562.2024.10746119

Sacoto, Monica Alexandra Romero ; Cadme, Angel Eugenio Cárdenas ; Romero, Johan Adser Solano et al. / Mechatronic Development of a Delta Robot Applied to MPS 500. ETCM 2024 - 8th Ecuador Technical Chapters Meeting. editor / David Rivas-Lalaleo ; Soraya Lucia Sinche Maita. Institute of Electrical and Electronics Engineers Inc., 2024. (ETCM 2024 - 8th Ecuador Technical Chapters Meeting).

@inproceedings{6fc58097af9c4256ba644fde364f11e5,

title = "Mechatronic Development of a Delta Robot Applied to MPS 500",

abstract = "This document is a description of the design and implementation of a delta robot model with position control. The mechanical design of the prototype is based on the requirements of the workspace, with a structural analysis that guarantees the coverage of the required area and the strength of the materials used.From the inverse kinematic analysis, a joint position control system is proposed based on a proportional, integral and derivative (PID) controller, designed to adapt to the programmed conditions of the mechanism. This control system is implemented in a programming interface developed in Python{\textregistered}.After the implementation phase, tests are carried out to evaluate the effectiveness and performance of the robot. These tests are based on error indicators, using the Mean Absolute Error (MAE) as the main indicator to quantify the difference between the desired positions and the positions reached by the robot.",

keywords = "assembly, control, Delta, kinematic, production, Python",

author = "Sacoto, \{Monica Alexandra Romero\} and Cadme, \{Angel Eugenio C{\'a}rdenas\} and Romero, \{Johan Adser Solano\} and \{Pineda Campoverde\}, \{Danny Sebastian\}",

note = "Publisher Copyright: {\textcopyright} 2024 IEEE.; 8th IEEE Ecuador Technical Chapters Meeting, ETCM 2024 ; Conference date: 15-10-2024 Through 18-10-2024",

year = "2024",

doi = "10.1109/ETCM63562.2024.10746119",

language = "English",

series = "ETCM 2024 - 8th Ecuador Technical Chapters Meeting",

publisher = "Institute of Electrical and Electronics Engineers Inc.",

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}

Sacoto, MAR , Cadme, AEC, Romero, JAS & Pineda Campoverde, DS 2024, Mechatronic Development of a Delta Robot Applied to MPS 500. En D Rivas-Lalaleo & SLS Maita (eds.), ETCM 2024 - 8th Ecuador Technical Chapters Meeting. ETCM 2024 - 8th Ecuador Technical Chapters Meeting, Institute of Electrical and Electronics Engineers Inc., 8th IEEE Ecuador Technical Chapters Meeting, ETCM 2024, Cuenca, Ecuador, 15/10/24. https://doi.org/10.1109/ETCM63562.2024.10746119

Mechatronic Development of a Delta Robot Applied to MPS 500. / Sacoto, Monica Alexandra Romero ; Cadme, Angel Eugenio Cárdenas; Romero, Johan Adser Solano et al.
ETCM 2024 - 8th Ecuador Technical Chapters Meeting. ed. / David Rivas-Lalaleo; Soraya Lucia Sinche Maita. Institute of Electrical and Electronics Engineers Inc., 2024. (ETCM 2024 - 8th Ecuador Technical Chapters Meeting).

Producción científica: Capítulo del libro/informe/acta de congreso › Contribución de conferencia › revisión exhaustiva

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AB - This document is a description of the design and implementation of a delta robot model with position control. The mechanical design of the prototype is based on the requirements of the workspace, with a structural analysis that guarantees the coverage of the required area and the strength of the materials used.From the inverse kinematic analysis, a joint position control system is proposed based on a proportional, integral and derivative (PID) controller, designed to adapt to the programmed conditions of the mechanism. This control system is implemented in a programming interface developed in Python®.After the implementation phase, tests are carried out to evaluate the effectiveness and performance of the robot. These tests are based on error indicators, using the Mean Absolute Error (MAE) as the main indicator to quantify the difference between the desired positions and the positions reached by the robot.

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