Industrial Process Fault Detection with Multi-View Feature Fusion Attention Mechanism Assisted Autoencoder Network

Fault detection technology plays a crucial role in ensuring the safety and efficiency of industrial processes. Industrial processes are subject to changing operating conditions, causing their characteristics to evolve over time and exhibit dynamic, non-Gaussian, and non-linear behaviors in the data....

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Published in:	IEEE International Conference on Software Quality, Reliability and Security Companion (QRS-C) (Online) pp. 1113 - 1122
Main Authors:	Tong, Yifan, Wang, Zhaojing, Yan, Xiaoyun, Hu, Xinrong, Li, Lijun
Format:	Conference Proceeding
Language:	English
Published:	IEEE 01.07.2024
Subjects:	Accuracy attention mechanism Attention mechanisms Data mining Data models dynamic feature Fault detection Feature extraction Independent component analysis non-Gaussian feature non-linear feature Security Software quality Software reliability
ISSN:	2693-9371
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Abstract	Fault detection technology plays a crucial role in ensuring the safety and efficiency of industrial processes. Industrial processes are subject to changing operating conditions, causing their characteristics to evolve over time and exhibit dynamic, non-Gaussian, and non-linear behaviors in the data. Unfortunately, existing research in process monitoring often fails to address these properties simultaneously, leading to unsatisfactory fault detection outcomes. To address this gap, a novel fault detection framework is introduced in this study, leveraging a Multi-View Feature Fusion At-tention Mechanism Assisted Autoencoder Network (MFA-AE). To capture the dynamic and non-Gaussian features of industrial processes comprehensively, slow feature analysis and independent component analysis are initially employed to extract features separately from the raw data. Subsequently, an attention mechanism is integrated to fuse these extracted features with the raw data, enhancing the information available for subsequent modeling. These integrated features are then passed through the Autoencoder (AE) network, where non-linear features are further explored, and a fault detection model is constructed based on the residuals of the AE network. To assess the effectiveness and feasibility of the MFA-AE approach, experiments are conducted using the Tennessee Eastman process. The results affirm the superiority of the proposed method over state-of-the-art techniques in terms of detection accuracy, demonstrating the promising potential of the MFA-AE scheme for enhancing fault detection in industrial processes.
AbstractList	Fault detection technology plays a crucial role in ensuring the safety and efficiency of industrial processes. Industrial processes are subject to changing operating conditions, causing their characteristics to evolve over time and exhibit dynamic, non-Gaussian, and non-linear behaviors in the data. Unfortunately, existing research in process monitoring often fails to address these properties simultaneously, leading to unsatisfactory fault detection outcomes. To address this gap, a novel fault detection framework is introduced in this study, leveraging a Multi-View Feature Fusion At-tention Mechanism Assisted Autoencoder Network (MFA-AE). To capture the dynamic and non-Gaussian features of industrial processes comprehensively, slow feature analysis and independent component analysis are initially employed to extract features separately from the raw data. Subsequently, an attention mechanism is integrated to fuse these extracted features with the raw data, enhancing the information available for subsequent modeling. These integrated features are then passed through the Autoencoder (AE) network, where non-linear features are further explored, and a fault detection model is constructed based on the residuals of the AE network. To assess the effectiveness and feasibility of the MFA-AE approach, experiments are conducted using the Tennessee Eastman process. The results affirm the superiority of the proposed method over state-of-the-art techniques in terms of detection accuracy, demonstrating the promising potential of the MFA-AE scheme for enhancing fault detection in industrial processes.
Author	Hu, Xinrong Wang, Zhaojing Tong, Yifan Yan, Xiaoyun Li, Lijun
Author_xml	– sequence: 1 givenname: Yifan surname: Tong fullname: Tong, Yifan email: 2215063022@mail.wtu.edu.cn organization: Wuhan Textile University,Wuhan,Hubei,China – sequence: 2 givenname: Zhaojing surname: Wang fullname: Wang, Zhaojing email: zjwang@wtu.edu.cn organization: Wuhan Textile University,Wuhan,Hubei,China – sequence: 3 givenname: Xiaoyun surname: Yan fullname: Yan, Xiaoyun email: xyyan@wtu.edu.cn organization: Wuhan Textile University,Wuhan,Hubei,China – sequence: 4 givenname: Xinrong surname: Hu fullname: Hu, Xinrong email: hxr@wtu.edu.cn organization: Wuhan Textile University,Wuhan,Hubei,China – sequence: 5 givenname: Lijun surname: Li fullname: Li, Lijun email: james.li@cxrobotics.com organization: Ningbo Cixing Co.,Ltd.,Ningbo,Zhejiang,China
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Snippet	Fault detection technology plays a crucial role in ensuring the safety and efficiency of industrial processes. Industrial processes are subject to changing...
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SubjectTerms	Accuracy attention mechanism Attention mechanisms Data mining Data models dynamic feature Fault detection Feature extraction Independent component analysis non-Gaussian feature non-linear feature Security Software quality Software reliability
Title	Industrial Process Fault Detection with Multi-View Feature Fusion Attention Mechanism Assisted Autoencoder Network
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