A Comparative Study of Fractional PID and Integer PID: Experimental Test Results on a Thermal Process

Dylan Puyol; Diego S. Benítez; Noel Pérez-Pérez; Fabricio Yépez; Marco Herrera; Oscar Camacho

doi:10.1109/ARGENCON62399.2024.10735976

A Comparative Study of Fractional PID and Integer PID: Experimental Test Results on a Thermal Process

Dylan Puyol, Diego S. Benítez, Noel Pérez-Pérez, Fabricio Yépez, Marco Herrera, Oscar Camacho

Universidad San Francisco de Quito

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

Resumen

The fractional integral (FO) is an advanced variant that extends the conventional PID controller by incorporating noninteger (fractional) orders of integration and differentiation. This modification allows for a more flexible response to the error signal, improving stability and efficiency compared to the traditional PID. This paper presents a comprehensive comparative study conducted within Simulink for the Temperature Control Lab (TCLab). The results show that fractional PIDs perform better than regular PIDs due to the two additional tuning parameters that allow for better tuning in the controller's action.

Idioma original	Inglés
Título de la publicación alojada	2024 7th IEEE Biennial Congress of Argentina, ARGENCON 2024
Editorial	Institute of Electrical and Electronics Engineers Inc.
ISBN (versión digital)	9798350365931
DOI	https://doi.org/10.1109/ARGENCON62399.2024.10735976
Estado	Publicada - 2024
Evento	7th IEEE Biennial Congress of Argentina, ARGENCON 2024 - San Nicolas de los Arroyos, Argentina Duración: 18 sep. 2024 → 20 sep. 2024

Serie de la publicación

Nombre	2024 7th IEEE Biennial Congress of Argentina, ARGENCON 2024

Conferencia

Conferencia	7th IEEE Biennial Congress of Argentina, ARGENCON 2024
País/Territorio	Argentina
Ciudad	San Nicolas de los Arroyos
Período	18/09/24 → 20/09/24

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10.1109/ARGENCON62399.2024.10735976

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Puyol, D., Benítez, D. S., Pérez-Pérez, N., Yépez, F., Herrera, M., & Camacho, O. (2024). A Comparative Study of Fractional PID and Integer PID: Experimental Test Results on a Thermal Process. En 2024 7th IEEE Biennial Congress of Argentina, ARGENCON 2024 (2024 7th IEEE Biennial Congress of Argentina, ARGENCON 2024). Institute of Electrical and Electronics Engineers Inc.. https://doi.org/10.1109/ARGENCON62399.2024.10735976

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title = "A Comparative Study of Fractional PID and Integer PID: Experimental Test Results on a Thermal Process",

abstract = "The fractional integral (FO) is an advanced variant that extends the conventional PID controller by incorporating noninteger (fractional) orders of integration and differentiation. This modification allows for a more flexible response to the error signal, improving stability and efficiency compared to the traditional PID. This paper presents a comprehensive comparative study conducted within Simulink for the Temperature Control Lab (TCLab). The results show that fractional PIDs perform better than regular PIDs due to the two additional tuning parameters that allow for better tuning in the controller's action.",

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Puyol, D, Benítez, DS , Pérez-Pérez, N , Yépez, F, Herrera, M & Camacho, O 2024, A Comparative Study of Fractional PID and Integer PID: Experimental Test Results on a Thermal Process. En 2024 7th IEEE Biennial Congress of Argentina, ARGENCON 2024. 2024 7th IEEE Biennial Congress of Argentina, ARGENCON 2024, Institute of Electrical and Electronics Engineers Inc., 7th IEEE Biennial Congress of Argentina, ARGENCON 2024, San Nicolas de los Arroyos, Argentina, 18/09/24. https://doi.org/10.1109/ARGENCON62399.2024.10735976

A Comparative Study of Fractional PID and Integer PID: Experimental Test Results on a Thermal Process. / Puyol, Dylan; Benítez, Diego S.; Pérez-Pérez, Noel et al.
2024 7th IEEE Biennial Congress of Argentina, ARGENCON 2024. Institute of Electrical and Electronics Engineers Inc., 2024. (2024 7th IEEE Biennial Congress of Argentina, ARGENCON 2024).

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

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T1 - A Comparative Study of Fractional PID and Integer PID

T2 - 7th IEEE Biennial Congress of Argentina, ARGENCON 2024

AU - Puyol, Dylan

AU - Benítez, Diego S.

AU - Pérez-Pérez, Noel

AU - Yépez, Fabricio

AU - Herrera, Marco

AU - Camacho, Oscar

PY - 2024

Y1 - 2024

N2 - The fractional integral (FO) is an advanced variant that extends the conventional PID controller by incorporating noninteger (fractional) orders of integration and differentiation. This modification allows for a more flexible response to the error signal, improving stability and efficiency compared to the traditional PID. This paper presents a comprehensive comparative study conducted within Simulink for the Temperature Control Lab (TCLab). The results show that fractional PIDs perform better than regular PIDs due to the two additional tuning parameters that allow for better tuning in the controller's action.

AB - The fractional integral (FO) is an advanced variant that extends the conventional PID controller by incorporating noninteger (fractional) orders of integration and differentiation. This modification allows for a more flexible response to the error signal, improving stability and efficiency compared to the traditional PID. This paper presents a comprehensive comparative study conducted within Simulink for the Temperature Control Lab (TCLab). The results show that fractional PIDs perform better than regular PIDs due to the two additional tuning parameters that allow for better tuning in the controller's action.

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KW - PID

KW - Simulink

KW - Tunning

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Puyol D, Benítez DS , Pérez-Pérez N , Yépez F, Herrera M, Camacho O. A Comparative Study of Fractional PID and Integer PID: Experimental Test Results on a Thermal Process. En 2024 7th IEEE Biennial Congress of Argentina, ARGENCON 2024. Institute of Electrical and Electronics Engineers Inc. 2024. (2024 7th IEEE Biennial Congress of Argentina, ARGENCON 2024). doi: 10.1109/ARGENCON62399.2024.10735976

A Comparative Study of Fractional PID and Integer PID: Experimental Test Results on a Thermal Process

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