CSIMFS: An algorithm to tune fuzzy logic controllers

Omar Rodríguez-Zalapa; Jorge A. Huerta-Ruelas; Domingo Rangel-Miranda; Eduardo Morales-Sánchez; Antonio Hernández-Zavala

doi:10.3233/JIFS-161402

CSIMFS: An algorithm to tune fuzzy logic controllers

Omar Rodríguez-Zalapa, Jorge A. Huerta-Ruelas, Domingo Rangel-Miranda, Eduardo Morales-Sánchez, Antonio Hernández-Zavala

Producción científica: Contribución a una revista › Artículo › revisión exhaustiva

2 Citas (Scopus)

Resumen

This work, presents a new tuning algorithm for type-I fuzzy logic controllers (FLCs), called Change Symmetry in Input Membership Functions (CSIMFS). The algorithm uses an iterative method that applies specific criteria to reduce mathematical operations during the tuning process to develop embedded FLCs. It uses one-input-one-output fuzzy inference system with five control rules and no more than two tuning parameters. The effectiveness of the proposed algorithm was validated experimentally using a real nonlinear pneumatic positioning system and verified with a simulation using a second order model. In both cases, CSIMFS algorithm exhibited a better performance compared with heuristically tuned FLCs. Moreover, a new combined performance index was defined and compared to traditional ITAE index offering better results, reducing the maximum overshoot and a faster convergence of settling time.

Idioma original	Inglés
Páginas (desde-hasta)	679-691
Número de páginas	13
Publicación	Journal of Intelligent and Fuzzy Systems
Volumen	33
N.º	2
DOI	https://doi.org/10.3233/JIFS-161402
Estado	Publicada - 2017
Publicado de forma externa	Sí

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title = "CSIMFS: An algorithm to tune fuzzy logic controllers",

abstract = "This work, presents a new tuning algorithm for type-I fuzzy logic controllers (FLCs), called Change Symmetry in Input Membership Functions (CSIMFS). The algorithm uses an iterative method that applies specific criteria to reduce mathematical operations during the tuning process to develop embedded FLCs. It uses one-input-one-output fuzzy inference system with five control rules and no more than two tuning parameters. The effectiveness of the proposed algorithm was validated experimentally using a real nonlinear pneumatic positioning system and verified with a simulation using a second order model. In both cases, CSIMFS algorithm exhibited a better performance compared with heuristically tuned FLCs. Moreover, a new combined performance index was defined and compared to traditional ITAE index offering better results, reducing the maximum overshoot and a faster convergence of settling time.",

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AU - Rodríguez-Zalapa, Omar

AU - Huerta-Ruelas, Jorge A.

AU - Rangel-Miranda, Domingo

AU - Morales-Sánchez, Eduardo

AU - Hernández-Zavala, Antonio

PY - 2017

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N2 - This work, presents a new tuning algorithm for type-I fuzzy logic controllers (FLCs), called Change Symmetry in Input Membership Functions (CSIMFS). The algorithm uses an iterative method that applies specific criteria to reduce mathematical operations during the tuning process to develop embedded FLCs. It uses one-input-one-output fuzzy inference system with five control rules and no more than two tuning parameters. The effectiveness of the proposed algorithm was validated experimentally using a real nonlinear pneumatic positioning system and verified with a simulation using a second order model. In both cases, CSIMFS algorithm exhibited a better performance compared with heuristically tuned FLCs. Moreover, a new combined performance index was defined and compared to traditional ITAE index offering better results, reducing the maximum overshoot and a faster convergence of settling time.

AB - This work, presents a new tuning algorithm for type-I fuzzy logic controllers (FLCs), called Change Symmetry in Input Membership Functions (CSIMFS). The algorithm uses an iterative method that applies specific criteria to reduce mathematical operations during the tuning process to develop embedded FLCs. It uses one-input-one-output fuzzy inference system with five control rules and no more than two tuning parameters. The effectiveness of the proposed algorithm was validated experimentally using a real nonlinear pneumatic positioning system and verified with a simulation using a second order model. In both cases, CSIMFS algorithm exhibited a better performance compared with heuristically tuned FLCs. Moreover, a new combined performance index was defined and compared to traditional ITAE index offering better results, reducing the maximum overshoot and a faster convergence of settling time.

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CSIMFS: An algorithm to tune fuzzy logic controllers

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