On stability of a nonlinear PID-like controller with gravity compensation for input-saturated robot manipulators∗

Marco Jimenez-Quiroz; Jeronimo Moyron; Javier Moreno-Valenzuela

doi:10.1109/CCTA48906.2021.9659115

On stability of a nonlinear PID-like controller with gravity compensation for input-saturated robot manipulators^∗

Marco Jimenez-Quiroz, Jeronimo Moyron, Javier Moreno-Valenzuela

Centro de Investigación y Desarrollo de Tecnología Digital (CITEDI)

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

Resumen

In this note, the regulation problem of an n-link robot manipulator that is subject to input saturation is addressed. Our control strategy is based on a control law that uses gravity compensation together with a PID-like controller with bounded actions. The design is based on the usage of symmetrical hard saturation functions whose saturation levels are free to be selected by the user. As the resulting closed- loop equation is autonomous, we propose a Lyapunov function and apply an invariance principle known in the literature to prove asymptotic stability. Numerical simulations on a three degrees-of-freedom robot manipulator are presented, where the performance of our controller with respect to others reported in the literature is compared.

Idioma original	Inglés
Título de la publicación alojada	CCTA 2021 - 5th IEEE Conference on Control Technology and Applications
Editorial	Institute of Electrical and Electronics Engineers Inc.
Páginas	1083-1088
Número de páginas	6
ISBN (versión digital)	9781665436434
DOI	https://doi.org/10.1109/CCTA48906.2021.9659115
Estado	Publicada - 2021
Evento	5th IEEE Conference on Control Technology and Applications, CCTA 2021 - Virtual, San Diego, Estados Unidos Duración: 8 ago. 2021 → 11 ago. 2021

Serie de la publicación

Nombre	CCTA 2021 - 5th IEEE Conference on Control Technology and Applications

Conferencia

Conferencia	5th IEEE Conference on Control Technology and Applications, CCTA 2021
País/Territorio	Estados Unidos
Ciudad	Virtual, San Diego
Período	8/08/21 → 11/08/21

Acceder al documento

10.1109/CCTA48906.2021.9659115

Otros archivos y enlaces

Enlace a la publicación en Scopus

Citar esto

Jimenez-Quiroz, M., Moyron, J., & Moreno-Valenzuela, J. (2021). On stability of a nonlinear PID-like controller with gravity compensation for input-saturated robot manipulators^∗. En CCTA 2021 - 5th IEEE Conference on Control Technology and Applications (pp. 1083-1088). (CCTA 2021 - 5th IEEE Conference on Control Technology and Applications). Institute of Electrical and Electronics Engineers Inc.. https://doi.org/10.1109/CCTA48906.2021.9659115

Jimenez-Quiroz, Marco ; Moyron, Jeronimo ; Moreno-Valenzuela, Javier. / On stability of a nonlinear PID-like controller with gravity compensation for input-saturated robot manipulators^∗. CCTA 2021 - 5th IEEE Conference on Control Technology and Applications. Institute of Electrical and Electronics Engineers Inc., 2021. pp. 1083-1088 (CCTA 2021 - 5th IEEE Conference on Control Technology and Applications).

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abstract = "In this note, the regulation problem of an n-link robot manipulator that is subject to input saturation is addressed. Our control strategy is based on a control law that uses gravity compensation together with a PID-like controller with bounded actions. The design is based on the usage of symmetrical hard saturation functions whose saturation levels are free to be selected by the user. As the resulting closed- loop equation is autonomous, we propose a Lyapunov function and apply an invariance principle known in the literature to prove asymptotic stability. Numerical simulations on a three degrees-of-freedom robot manipulator are presented, where the performance of our controller with respect to others reported in the literature is compared.",

author = "Marco Jimenez-Quiroz and Jeronimo Moyron and Javier Moreno-Valenzuela",

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Jimenez-Quiroz, M, Moyron, J & Moreno-Valenzuela, J 2021, On stability of a nonlinear PID-like controller with gravity compensation for input-saturated robot manipulators^∗. En CCTA 2021 - 5th IEEE Conference on Control Technology and Applications. CCTA 2021 - 5th IEEE Conference on Control Technology and Applications, Institute of Electrical and Electronics Engineers Inc., pp. 1083-1088, 5th IEEE Conference on Control Technology and Applications, CCTA 2021, Virtual, San Diego, Estados Unidos, 8/08/21. https://doi.org/10.1109/CCTA48906.2021.9659115

On stability of a nonlinear PID-like controller with gravity compensation for input-saturated robot manipulators^∗. / Jimenez-Quiroz, Marco; Moyron, Jeronimo; Moreno-Valenzuela, Javier.
CCTA 2021 - 5th IEEE Conference on Control Technology and Applications. Institute of Electrical and Electronics Engineers Inc., 2021. p. 1083-1088 (CCTA 2021 - 5th IEEE Conference on Control Technology and Applications).

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

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AB - In this note, the regulation problem of an n-link robot manipulator that is subject to input saturation is addressed. Our control strategy is based on a control law that uses gravity compensation together with a PID-like controller with bounded actions. The design is based on the usage of symmetrical hard saturation functions whose saturation levels are free to be selected by the user. As the resulting closed- loop equation is autonomous, we propose a Lyapunov function and apply an invariance principle known in the literature to prove asymptotic stability. Numerical simulations on a three degrees-of-freedom robot manipulator are presented, where the performance of our controller with respect to others reported in the literature is compared.

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Jimenez-Quiroz M, Moyron J, Moreno-Valenzuela J. On stability of a nonlinear PID-like controller with gravity compensation for input-saturated robot manipulators^∗. En CCTA 2021 - 5th IEEE Conference on Control Technology and Applications. Institute of Electrical and Electronics Engineers Inc. 2021. p. 1083-1088. (CCTA 2021 - 5th IEEE Conference on Control Technology and Applications). doi: 10.1109/CCTA48906.2021.9659115