基于零点学习的制造过程并发控制图模式识别。

IF 6.3 2区 计算机科学 Q1 AUTOMATION & CONTROL SYSTEMS
Yazhou Li , Wei Dai , Shuang Yu , Yihai He
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引用次数: 0

摘要

在实际工业环境中,收集和标记并发异常控制图模式(CCP)样本具有挑战性,从而阻碍了当前 CCP 识别(CCPR)方法的有效性。本文将零镜头学习引入质量控制,提出了一种识别零镜头并发 CCP(C-CCP)的智能模型。本文提出了一种考虑数据顺序关系的多尺度顺序模式(OP)特征。借鉴专家知识,建立了一个属性描述空间(ADS),用于从单个 CCP 推断为 C-CCP。在特征和标签之间嵌入了一个 ADS,属性分类器将 CCP 的特征和属性联系起来。实验结果表明,在没有训练 CCP 样本的情况下,11 个未见 CCP 的准确率为 98.73%,所有 19 个 CCP 的总体准确率为 98.89%。与其他特征相比,多尺度 OP 特征对未见 CCP 的识别效果最好。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Concurrent control chart pattern recognition in manufacturing processes based on zero-shot learning
In real industrial settings, collecting and labeling concurrent abnormal control chart pattern (CCP) samples are challenging, thereby hindering the effectiveness of current CCP recognition (CCPR) methods. This paper introduces zero-shot learning into quality control, proposing an intelligent model for recognizing zero-shot concurrent CCPs (C-CCPs). A multiscale ordinal pattern (OP) feature considering data sequential relationship is proposed. Drawing from expert knowledge, an attribute description space (ADS) is established to infer from single CCPs to C-CCPs. An ADS is embedded between features and labels, and the attribute classifier associates the features and attributes of CCPs. Experimental results demonstrate an accuracy of 98.73 % for 11 unseen C-CCPs and an overall accuracy of 98.89 % for all 19 CCPs, without C-CCP samples in training. Compared with other features, the multiscale OP feature has the best recognition effect on unseen C-CCPs.
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来源期刊
ISA transactions
ISA transactions 工程技术-工程:综合
CiteScore
11.70
自引率
12.30%
发文量
824
审稿时长
4.4 months
期刊介绍: ISA Transactions serves as a platform for showcasing advancements in measurement and automation, catering to both industrial practitioners and applied researchers. It covers a wide array of topics within measurement, including sensors, signal processing, data analysis, and fault detection, supported by techniques such as artificial intelligence and communication systems. Automation topics encompass control strategies, modelling, system reliability, and maintenance, alongside optimization and human-machine interaction. The journal targets research and development professionals in control systems, process instrumentation, and automation from academia and industry.
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