Statistical Process Control with Intelligence Based on the Deep Learning Model

Tao Zan,Zhihao Liu,Zifeng Su,Xiangsheng Gao,Min Wang,Deyin Chen

doi:10.3390/app10010308

Tao Zan, Zhihao Liu + Show 4 more

Open Access

https://doi.org/10.3390/app10010308

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Journal: Applied sciences	Publication Date: Dec 31, 2019
Citations: 35	License type: CC BY 4.0

Affiliation: Beijing University of Technology

Abstract

Statistical process control (SPC) is an important tool of enterprise quality management. It can scientifically distinguish the abnormal fluctuations of product quality. Therefore, intelligent and efficient SPC is of great significance to the manufacturing industry, especially in the context of industry 4.0. The intelligence of SPC is embodied in the realization of histogram pattern recognition (HPR) and control chart pattern recognition (CCPR). In view of the lack of HPR research and the complexity and low efficiency of the manual feature of control chart pattern, an intelligent SPC method based on feature learning is proposed. This method uses multilayer bidirectional long short-term memory network (Bi-LSTM) to learn the best features from the raw data, and it is universal to HPR and CCPR. Firstly, the training and test data sets are generated by Monte Carlo simulation algorithm. There are seven histogram patterns (HPs) and nine control chart patterns (CCPs). Then, the network structure parameters and training parameters are optimized to obtain the best training effect. Finally, the proposed method is compared with traditional methods and other deep learning methods. The results show that the quality of extracted features by multilayer Bi-LSTM is the highest. It has obvious advantages over other methods in recognition accuracy, despite the HPR or CCPR. In addition, the abnormal patterns of data in actual production can be effectively identified.

Highlights

Since 1920s, statistical process control (SPC) theory has played an important role in product quality improvement and quality supervision [1]
On the basis of relevant research in recent years [18,46,47], this paper proposes to use multilayer bidirectional long short-term memory networks (Bi-LSTM) to learn the features of histogram and control chart, and realize histogram pattern recognition (HPR) and control chart pattern recognition (CCPR)
In order to make the simulation data closer to the complex production data, the Monte Carlo simulation parameters of the seven histogram patterns (HPs) were randomly selected within a certain range, using the uniform distribution

Summary

Introduction

Since 1920s, statistical process control (SPC) theory has played an important role in product quality improvement and quality supervision [1]. SPC mainly uses a statistical analysis method to monitor the production process, and scientifically distinguishes the random fluctuation and abnormal fluctuation of product quality in the production process [2,3]. Intelligent SPC data analysis is realized, which can reduce production time and cost and improve product quality. It will likely become an integral part of industry 4.0 technology. Among the many theories of SPC, control charts and histograms are the most important and practical visual indicators [4]

Methods

Discussion

Conclusion