Detección y diagnóstico de fallas en motores mediante el análisis de vibraciones aplicando técnicas de inteligencia artificial.
Currently, the detection and diagnosis of motor faults in industry is essential for reducing both machinery (motor) maintenance costs and mitigating production interruptions. Vibration analysis establishes a competent technique for detecting faults or malfunctions in motors, and its level of accurac...
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| Format: | Article |
| Language: | English |
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Fundación de Estudios Superiores Comfanorte
2023-01-01
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| Series: | Mundo Fesc |
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| Online Access: | https://www.fesc.edu.co/Revistas/OJS/index.php/mundofesc/article/view/1652 |
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| author | Jair Elías Araujo Vargas Dilan Yesid Franklin Coronel Victor Manuel Arias Ruiz |
| author_facet | Jair Elías Araujo Vargas Dilan Yesid Franklin Coronel Victor Manuel Arias Ruiz |
| author_sort | Jair Elías Araujo Vargas |
| collection | DOAJ |
| description | Currently, the detection and diagnosis of motor faults in industry is essential for reducing both machinery (motor) maintenance costs and mitigating production interruptions. Vibration analysis establishes a competent technique for detecting faults or malfunctions in motors, and its level of accuracy has increased thanks to the combined application of artificial intelligence. Therefore, the performance of different artificial intelligence algorithms in the field of fault detection and diagnosis using vibration analysis in motors was evaluated.
An exhaustive comparison of the results obtained with each algorithm was carried out using metrics and evaluation techniques in order to determine which is the most effective. In this specific task, indicators such as the precision, sensitivity and specificity of the algorithms or aspects such as vibration signal conditioning techniques, extraction methods, selection of key features, training of artificial intelligence models, neural networks and support vector machines were taken into account.
Thus, artificial intelligence algorithms demonstrated high accuracy in fault detection and resolution, identifying various types of problems in a timely manner; the models contributed significantly to the overall analysis, offering a more reliable approach to predictive industrial maintenance, paving the way for future improvements and the adoption of new, more robust and adaptable algorithms. |
| format | Article |
| id | doaj-art-15c4a77466b24da5b47576a2ff264c09 |
| institution | DOAJ |
| issn | 2216-0353 2216-0388 |
| language | English |
| publishDate | 2023-01-01 |
| publisher | Fundación de Estudios Superiores Comfanorte |
| record_format | Article |
| series | Mundo Fesc |
| spelling | doaj-art-15c4a77466b24da5b47576a2ff264c092025-08-20T03:05:17ZengFundación de Estudios Superiores ComfanorteMundo Fesc2216-03532216-03882023-01-0113S282210.61799/2216-0388.1652Detección y diagnóstico de fallas en motores mediante el análisis de vibraciones aplicando técnicas de inteligencia artificial.Jair Elías Araujo Vargas0https://orcid.org/0000-0003-3869-950XDilan Yesid Franklin Coronelhttps://orcid.org/0009-0001-2701-1207Victor Manuel Arias Ruiz1https://orcid.org/0009-0007-0341-9332Universidad de PamplonaUniversidad de PamplonaCurrently, the detection and diagnosis of motor faults in industry is essential for reducing both machinery (motor) maintenance costs and mitigating production interruptions. Vibration analysis establishes a competent technique for detecting faults or malfunctions in motors, and its level of accuracy has increased thanks to the combined application of artificial intelligence. Therefore, the performance of different artificial intelligence algorithms in the field of fault detection and diagnosis using vibration analysis in motors was evaluated. An exhaustive comparison of the results obtained with each algorithm was carried out using metrics and evaluation techniques in order to determine which is the most effective. In this specific task, indicators such as the precision, sensitivity and specificity of the algorithms or aspects such as vibration signal conditioning techniques, extraction methods, selection of key features, training of artificial intelligence models, neural networks and support vector machines were taken into account. Thus, artificial intelligence algorithms demonstrated high accuracy in fault detection and resolution, identifying various types of problems in a timely manner; the models contributed significantly to the overall analysis, offering a more reliable approach to predictive industrial maintenance, paving the way for future improvements and the adoption of new, more robust and adaptable algorithms.https://www.fesc.edu.co/Revistas/OJS/index.php/mundofesc/article/view/1652análisis de vibracionesmantenimientointeligencia artificialredes neuronalesalgoritmosdiagnostico de fallas |
| spellingShingle | Jair Elías Araujo Vargas Dilan Yesid Franklin Coronel Victor Manuel Arias Ruiz Detección y diagnóstico de fallas en motores mediante el análisis de vibraciones aplicando técnicas de inteligencia artificial. Mundo Fesc análisis de vibraciones mantenimiento inteligencia artificial redes neuronales algoritmos diagnostico de fallas |
| title | Detección y diagnóstico de fallas en motores mediante el análisis de vibraciones aplicando técnicas de inteligencia artificial. |
| title_full | Detección y diagnóstico de fallas en motores mediante el análisis de vibraciones aplicando técnicas de inteligencia artificial. |
| title_fullStr | Detección y diagnóstico de fallas en motores mediante el análisis de vibraciones aplicando técnicas de inteligencia artificial. |
| title_full_unstemmed | Detección y diagnóstico de fallas en motores mediante el análisis de vibraciones aplicando técnicas de inteligencia artificial. |
| title_short | Detección y diagnóstico de fallas en motores mediante el análisis de vibraciones aplicando técnicas de inteligencia artificial. |
| title_sort | deteccion y diagnostico de fallas en motores mediante el analisis de vibraciones aplicando tecnicas de inteligencia artificial |
| topic | análisis de vibraciones mantenimiento inteligencia artificial redes neuronales algoritmos diagnostico de fallas |
| url | https://www.fesc.edu.co/Revistas/OJS/index.php/mundofesc/article/view/1652 |
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