Fog computing-enabled adaptive prognosis of cutting tool remaining life through multi-source data
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| 發表在: | Journal of Computational Design and Engineering vol. 11, no. 6 (Dec 2024), p. 180 |
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| 主要作者: | |
| 其他作者: | , , , |
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Oxford University Press
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| 在線閱讀: | Citation/Abstract Full Text - PDF |
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| Resumen: | Predicting cutting tool remaining life is important to sustainable machining. Accurate wear assessment improves efficiency, reduces waste, and lowers costs by minimizing tool failure. Traditional prognosis methods are often crippled by the inability to adapt to diverse working conditions across the machining process lifecycle. This paper introduces a fog computing-enabled adaptive prognosis framework utilizing multi-source data to address these challenges effectively. The key innovations include the following: (1) the proposed system integrates power and vibration data collected from LGMazak VTC-16A and IRON MAN QM200 machines. A standardized data fusion method combines multi-source data to enhance robustness and accuracy. (2) The transformer model is employed to improve prognosis accuracy of cutting tool remaining life; best accuracy of 98.24% and an average accuracy of 97.63% are achieved. (3) Finite element analysis is incorporated to validate the model’s predictions to validate reliability of deep learning model. (4) The fog computing optimization mechanism based on the bees algorithm, which shows fitness value of 0.92 and convergence within 15 iterations. The proposed method reduces total data volume in cloud by 54.12%, prediction time by 33.64%, and time complexity in the cloud layer by 4.62%. The effectiveness of fog computing in improving the operational efficiency and reliability of manufacturing systems is validated through the integration of advanced data analytics and deep learning techniques. |
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| ISSN: | 2288-5048 |
| DOI: | 10.1093/jcde/qwae098 |
| Fuente: | Engineering Database |