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Hauptverfasser: Han, Pengyu, Liu, Zeyi, He, Xiao, Ding, Steven X., Zhou, Donghua
Format: Preprint
Veröffentlicht: 2024
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Online-Zugang:https://arxiv.org/abs/2412.19497
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_version_ 1866913627643052032
author Han, Pengyu
Liu, Zeyi
He, Xiao
Ding, Steven X.
Zhou, Donghua
author_facet Han, Pengyu
Liu, Zeyi
He, Xiao
Ding, Steven X.
Zhou, Donghua
contents With the increasing complexity of industrial production systems, accurate fault diagnosis is essential to ensure safe and efficient system operation. However, due to changes in production demands, dynamic process adjustments, and complex external environmental disturbances, multiple operating conditions frequently arise during production. The multi-condition characteristics pose significant challenges to traditional fault diagnosis methods. In this context, multi-condition fault diagnosis has gradually become a key area of research, attracting extensive attention from both academia and industry. This paper aims to provide a systematic and comprehensive review of existing research in the field. Firstly, the mathematical definition of the problem is presented, followed by an overview of the current research status. Subsequently, the existing literature is reviewed and categorized from the perspectives of single-model and multi-model approaches. In addition, standard evaluation metrics and typical real-world application scenarios are summarized and analyzed. Finally, the key challenges and prospects in the field are thoroughly discussed.
format Preprint
id arxiv_https___arxiv_org_abs_2412_19497
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Multi-Condition Fault Diagnosis of Dynamic Systems: A Survey, Insights, and Prospects
Han, Pengyu
Liu, Zeyi
He, Xiao
Ding, Steven X.
Zhou, Donghua
Systems and Control
With the increasing complexity of industrial production systems, accurate fault diagnosis is essential to ensure safe and efficient system operation. However, due to changes in production demands, dynamic process adjustments, and complex external environmental disturbances, multiple operating conditions frequently arise during production. The multi-condition characteristics pose significant challenges to traditional fault diagnosis methods. In this context, multi-condition fault diagnosis has gradually become a key area of research, attracting extensive attention from both academia and industry. This paper aims to provide a systematic and comprehensive review of existing research in the field. Firstly, the mathematical definition of the problem is presented, followed by an overview of the current research status. Subsequently, the existing literature is reviewed and categorized from the perspectives of single-model and multi-model approaches. In addition, standard evaluation metrics and typical real-world application scenarios are summarized and analyzed. Finally, the key challenges and prospects in the field are thoroughly discussed.
title Multi-Condition Fault Diagnosis of Dynamic Systems: A Survey, Insights, and Prospects
topic Systems and Control
url https://arxiv.org/abs/2412.19497