Control Chart Patterns Recognition Based on Optimized Deep Belief Neural Network and Data Information Enhancement

Control Chart Patterns Recognition Based on Optimized Deep Belief Neural Network and Data Information Enhancement

Control chart patterns (CCPs) are often used for quality control in the manufacturing process, and effective recognition of these patterns is critical to manufacturing. In the dynamic production process, the raw data and features of CCPs are used to recognize or further predict the trends. However,...

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Main Authors: Hongyan Chu, Kailin Zhao, Qiang Cheng, Rui Li, Congbin Yang
Format: Article
Language:English
Published: IEEE 2020-01-01
Series:IEEE Access
Subjects:
Control chart patterns
adaptive feature selection and information enhancement
artificial fish swarm algorithm
deep belief network
Online Access:https://ieeexplore.ieee.org/document/9248993/
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record_format Article
spelling doaj-7c7bfb02ab8e48ee87084f21fca551ab2021-03-30T04:33:59ZengIEEEIEEE Access2169-35362020-01-01820368520369910.1109/ACCESS.2020.30360069248993Control Chart Patterns Recognition Based on Optimized Deep Belief Neural Network and Data Information EnhancementHongyan Chu0Kailin Zhao1https://orcid.org/0000-0003-0208-0174Qiang Cheng2https://orcid.org/0000-0001-5446-3658Rui Li3https://orcid.org/0000-0003-0208-0174Congbin Yang4https://orcid.org/0000-0003-1040-6840Institute of Advanced Manufacturing and Intelligent Technology, Beijing University of Technology, Beijing, ChinaInstitute of Advanced Manufacturing and Intelligent Technology, Beijing University of Technology, Beijing, ChinaInstitute of Advanced Manufacturing and Intelligent Technology, Beijing University of Technology, Beijing, ChinaInstitute of Advanced Manufacturing and Intelligent Technology, Beijing University of Technology, Beijing, ChinaInstitute of Advanced Manufacturing and Intelligent Technology, Beijing University of Technology, Beijing, ChinaControl chart patterns (CCPs) are often used for quality control in the manufacturing process, and effective recognition of these patterns is critical to manufacturing. In the dynamic production process, the raw data and features of CCPs are used to recognize or further predict the trends. However, the inaccuracy of CCPs information extraction, loss of information, and complex recognizer can lead to the difficulty of recognition. In order to improve the accuracy of information extraction and recognition, a CCPs recognition method based on optimized deep belief network (DBN) and data information enhancement was proposed. Adaptive features selection and information enhancement (AFIE) was used to select the most appropriate features and make these features combine with the raw data to from the dataset in order to reduce the data dimension, and then combine dimensioned data with the selected features to enhance the data information. Further, this study presented a DBN with three restricted Boltzmann machine structures, which was optimized by using the artificial fish swarm algorithm (AFSA). The method of AFIE was discussed to obtain the optimal data set, and parameters of the network structure were analyzed, optimized, and discussed based on experiments and AFSA. At the same time, this method was compared with multi-layer perceptron neural network. The simulation results showed that the method proposed in this study exhibited excellent effect, and the recognition accuracy achieved by this method was 99.78% for 2000 samples of each pattern.https://ieeexplore.ieee.org/document/9248993/Control chart patternsadaptive feature selection and information enhancementartificial fish swarm algorithmdeep belief network
collection DOAJ
language English
format Article
sources DOAJ
author Hongyan Chu
Kailin Zhao
Qiang Cheng
Rui Li
Congbin Yang
spellingShingle Hongyan Chu
Kailin Zhao
Qiang Cheng
Rui Li
Congbin Yang
Control Chart Patterns Recognition Based on Optimized Deep Belief Neural Network and Data Information Enhancement
IEEE Access
Control chart patterns
adaptive feature selection and information enhancement
artificial fish swarm algorithm
deep belief network
author_facet Hongyan Chu
Kailin Zhao
Qiang Cheng
Rui Li
Congbin Yang
author_sort Hongyan Chu
title Control Chart Patterns Recognition Based on Optimized Deep Belief Neural Network and Data Information Enhancement
title_short Control Chart Patterns Recognition Based on Optimized Deep Belief Neural Network and Data Information Enhancement
title_full Control Chart Patterns Recognition Based on Optimized Deep Belief Neural Network and Data Information Enhancement
title_fullStr Control Chart Patterns Recognition Based on Optimized Deep Belief Neural Network and Data Information Enhancement
title_full_unstemmed Control Chart Patterns Recognition Based on Optimized Deep Belief Neural Network and Data Information Enhancement
title_sort control chart patterns recognition based on optimized deep belief neural network and data information enhancement
publisher IEEE
series IEEE Access
issn 2169-3536
publishDate 2020-01-01
description Control chart patterns (CCPs) are often used for quality control in the manufacturing process, and effective recognition of these patterns is critical to manufacturing. In the dynamic production process, the raw data and features of CCPs are used to recognize or further predict the trends. However, the inaccuracy of CCPs information extraction, loss of information, and complex recognizer can lead to the difficulty of recognition. In order to improve the accuracy of information extraction and recognition, a CCPs recognition method based on optimized deep belief network (DBN) and data information enhancement was proposed. Adaptive features selection and information enhancement (AFIE) was used to select the most appropriate features and make these features combine with the raw data to from the dataset in order to reduce the data dimension, and then combine dimensioned data with the selected features to enhance the data information. Further, this study presented a DBN with three restricted Boltzmann machine structures, which was optimized by using the artificial fish swarm algorithm (AFSA). The method of AFIE was discussed to obtain the optimal data set, and parameters of the network structure were analyzed, optimized, and discussed based on experiments and AFSA. At the same time, this method was compared with multi-layer perceptron neural network. The simulation results showed that the method proposed in this study exhibited excellent effect, and the recognition accuracy achieved by this method was 99.78% for 2000 samples of each pattern.
topic Control chart patterns
adaptive feature selection and information enhancement
artificial fish swarm algorithm
deep belief network
url https://ieeexplore.ieee.org/document/9248993/
work_keys_str_mv AT hongyanchu controlchartpatternsrecognitionbasedonoptimizeddeepbeliefneuralnetworkanddatainformationenhancement
AT kailinzhao controlchartpatternsrecognitionbasedonoptimizeddeepbeliefneuralnetworkanddatainformationenhancement
AT qiangcheng controlchartpatternsrecognitionbasedonoptimizeddeepbeliefneuralnetworkanddatainformationenhancement
AT ruili controlchartpatternsrecognitionbasedonoptimizeddeepbeliefneuralnetworkanddatainformationenhancement
AT congbinyang controlchartpatternsrecognitionbasedonoptimizeddeepbeliefneuralnetworkanddatainformationenhancement
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