基于机器学习的生产过程建模:一种序列跨产品知识积累、提取与迁移框架

A sequential cross-product knowledge accumulation, extraction and transfer framework for machine learning-based production process modelling

International Journal of Production Research · 2023
被引 6
ABS 3

中文导读

针对数据稀缺问题,提出序列跨产品知识积累、提取与迁移框架,整合特征选择、特征学习和迁移学习,在辅助材料性能预测和燃气轮机异常检测中有效减少训练样本并提升模型性能。

Abstract

Machine learning is a promising method to model production processes and predict product quality. It is challenging to accurately model complex systems due to data scarcity, as mass customisation leads to various high-variety low-volume products. This study conceptualised knowledge accumulation, extraction, and transfer (KAET) to exploit the knowledge embedded in similar entities to address data scarcity. A sequential cross-product KAET (SeqTrans) is proposed to conduct KAET, integrating data preparation and preprocessing, feature selection (FS), feature learning (FL), and transfer learning (TL). The FS and FL modules conduct knowledge extraction and help address various practical challenges such as changing operating conditions and unbalanced datasets. In this paper, sequential TL is introduced to production modelling to conduct knowledge transfer among multiple entities. The first case study of auxetic material performance prediction demonstrates the effectiveness of sequential TL. Compared with conventional TL, sequential TL can achieve the same test mean square errors with 300 fewer training examples when facing data scarcity. In the second case study, balancing anomaly detection models were constructed for two gas turbines in the same series using real-world production data. With SeqTrans, the F1-score of the anomaly detection model of the data-poor engine was improved from 0.769 to 0.909.

机器学习生产过程建模知识迁移数据稀缺工业工程