A. Gaffet, Nathalie Barbosa Roa, P. Ribot, E. Chanthery, C. Merle
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引用次数: 0
Abstract
This paper presents XGBoost classifier-based methods to solve three tasks proposed by the European Prognostics and Health Management Society (PHME) 2022 conference. These tasks are based on real data from a Surface Mount Technologies line. Each of these tasks aims to improve the efficiency of the Printed Circuit Board (PCB) manufacturing process, facilitate the operator’s work and minimize the cases of manual intervention. Due to the structured nature of the problems proposed for each task, an XGBoost method based on encoding and feature engineering is proposed. The proposed methods utilise the fusion of test values and system characteristics extracted from two different testing equipment of the Surface Mount Technologies lines. This work also explores the problems of generalising prediction at the system level using information from the subsystem data. For this particular industrial case: the challenges with the changes in the number of subsystems. For Industry 4.0, the need for interpretability is very important. This is why the results of the models are analysed using Shapley values. With the proposed method, our team took the first place, capable of successfully detecting at an early stage the defective components for tasks 2 and 3.
本文提出了基于XGBoost分类器的方法来解决欧洲预后和健康管理学会(PHME) 2022年会议提出的三个任务。这些任务都是基于来自Surface Mount Technologies生产线的真实数据。这些任务中的每一项都旨在提高印刷电路板(PCB)制造过程的效率,方便操作员的工作,并最大限度地减少人工干预的情况。由于每个任务所提出问题的结构化性质,提出了一种基于编码和特征工程的XGBoost方法。所提出的方法利用了从表面贴装技术生产线的两个不同测试设备中提取的测试值和系统特性的融合。这项工作还探讨了利用子系统数据中的信息在系统级推广预测的问题。对于这个特殊的工业案例:子系统数量变化带来的挑战。对于工业4.0,对可解释性的需求非常重要。这就是为什么使用Shapley值来分析模型的结果。通过提出的方法,我们的团队获得了第一名,能够在任务2和3的早期阶段成功地检测到有缺陷的组件。
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