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

IF 5.9 2区 工程技术 Q1 COMPUTER SCIENCE, ARTIFICIAL INTELLIGENCE
Joonhyeok Moon, Min-Gwan Kim, Ok Hyun Kang, Heejong Lee, Ki-Yong Oh
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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.

Abstract Image

通过异质传感器测量集合检测实现自动高频感应钎焊
本研究提出了一种新方法,利用集合旋转多金字塔变压器微小器(RoMP-T2)来估计高频感应钎焊的状态。所提出的方法旨在确定感应钎焊过程的准确状态,因为这些信息对于开发感应钎焊机的自动控制系统非常有效。所提出的状态估计方法有三个特点。首先,该方法采用了名为 RoMP-T2 的新型对象检测神经网络。该神经网络包括旋转边界框、多层次和多尺度特征提取模块以及金字塔视觉变换器,可有效地从图像中提取与感应钎焊过程高度相关的特征。其次,RoMP-T2 的集合架构可从光学图像和热图像中提取特征。贝叶斯优化也用于优化 RoMP-T2 组合架构中的超参数。因此,RoMP-T2 组合补偿了从每个光学图像和热图像中提取的特征,在感应钎焊过程中准确检测出填充材料的确切状态和位置。第三,建议的方法采用累积报警(CA)来确定钎焊过程是否完成。当将该方法应用于高频感应钎焊的自动化过程时,累积警报可大大降低误报率,确保高安全性和可靠性。对光学图像和热图像的实验分析表明,通过补偿从每幅光学图像和热图像中提取特征的限制,组合结构可确保最高精度。RoMP-T2 与其他基础神经网络的定量比较证实,所提出的神经网络在准确性和鲁棒性方面都优于其他中性网络。此外,对实验的系统分析显示,CA 显著降低了误报率,从而提高了工作效率。这些实验证明,所提出的框架可以有效地开发感应钎焊过程的主动管理系统,这对于智能工厂的生产过程自动化是不可或缺的。
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来源期刊
Journal of Intelligent Manufacturing
Journal of Intelligent Manufacturing 工程技术-工程:制造
CiteScore
19.30
自引率
9.60%
发文量
171
审稿时长
5.2 months
期刊介绍: The Journal of Nonlinear Engineering aims to be a platform for sharing original research results in theoretical, experimental, practical, and applied nonlinear phenomena within engineering. It serves as a forum to exchange ideas and applications of nonlinear problems across various engineering disciplines. Articles are considered for publication if they explore nonlinearities in engineering systems, offering realistic mathematical modeling, utilizing nonlinearity for new designs, stabilizing systems, understanding system behavior through nonlinearity, optimizing systems based on nonlinear interactions, and developing algorithms to harness and leverage nonlinear elements.
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