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Automatic high-frequency induction brazing through an ensembled detection with heterogenous sensor measurements

Authors
Moon, JoonhyeokKim, Min-GwanKang, Ok HyunLee, HeejongOh, Ki-Yong
Issue Date
Apr-2025
Publisher
Springer
Keywords
Automatic high-frequency induction brazing; Cognitive science; Ensemble learning; Induction brazing state detection; Heterogenous sensor fusing; Smart factory
Citation
Journal of Intelligent Manufacturing, v.36, no.4, pp 2439 - 2459
Pages
21
Indexed
SCIE
SCOPUS
Journal Title
Journal of Intelligent Manufacturing
Volume
36
Number
4
Start Page
2439
End Page
2459
URI
https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/211178
DOI
10.1007/s10845-024-02345-y
ISSN
0956-5515
1572-8145
Abstract
This study proposes a new method to estimate the state of the high-frequency induction brazing by using the ensembled Rotational multi-pyramid-transformer tiny (RoMP-T2). The proposed method aims to identify the exact state of an induction brazing process because this information is effective to develop an automatic control system of an induction brazing machine. The proposed state estimation method features three characteristics. First, the method addresses a novel neural network for object detection titled the RoMP-T2. This neural network includes a rotational bounding box, multilevel and multiscale feature extraction module, and pyramid vision transformer, which effectively extract features highly correlated to an inducing brazing process from images. Second, the ensembled architecture of the RoMP-T2 is addressed to extract features from both optical and thermal images. Bayesian optimization was also addressed to optimize hyperparameters in the ensembled architecture of the RoMP-T2. Hence, the ensembled RoMP-T2 compensates features extracted from each optical and thermal images, accurately detecting an exact state and location of the filler material during an induction brazing process. Third, the proposed method addresses a cumulative alarm (CA) for determining the completion of the brazing process. The CA significantly reduces a false alarm rate, securing high safety and reliability when the proposed method is implemented to an automation process of the high-frequency induction brazing. An analysis on experiments with optical and thermal images reveals that the ensembled architecture secures the highest accuracy by compensating a limit of feature extraction from each optical and thermal image. The quantitative comparison of the RoMP-T2 with other base-line neural networks confirms that the proposed neural network outperforms other neutral networks in both accuracy and robustness perspectives. Furthermore, systematic analysis on experiments reveals that the CA significantly decreases a false alarm rate and thereby increases productivity. These experimental evidences confirm that the proposed framework would be effective to develop an active management system of an induction brazing process, which would be indispensable for manufacturing process automation in a smart factory.
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COLLEGE OF ENGINEERING (SCHOOL OF MECHANICAL ENGINEERING)
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