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A Robust Method for Fault Detection and Severity Estimation in Mechanical Vibration Data

Authors
Jeon, YoungjaeHeo, EunhoLee, JinmoUhm, TaewonLee, Dongjin
Issue Date
Jul-2025
Publisher
Institute of Electrical and Electronics Engineers Inc.
Keywords
Data Accuracy; Fault Detection; Predictive Maintenance; Safety Engineering; Vibrations (mechanical); Fault Severities; Faults Detection; Mechanical; Mechanical Systems; Multivariate Time Series; Robust Methods; Temporal Graphs; Time-series Data; Vibration Data; Risk Management
Citation
IEEE International Conference on Prognostics and Health Management (ICPHM), pp 1 - 8
Pages
8
Indexed
SCOPUS
Journal Title
IEEE International Conference on Prognostics and Health Management (ICPHM)
Start Page
1
End Page
8
URI
https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/208506
DOI
10.1109/ICPHM65385.2025.11062052
ISSN
2166-563X
2166-5656
Abstract
This paper proposes a robust method for fault detection and severity estimation in multivariate time-series data to enhance predictive maintenance of mechanical systems. We use the Temporal Graph Convolutional Network (T-GCN) model to capture both spatial and temporal dependencies among variables. This enables accurate future state predictions under varying operational conditions. To address the challenge of fluctuating anomaly scores that reduce fault severity estimation accuracy, we introduce a novel fault severity index based on the mean and standard deviation of anomaly scores. This generates a continuous and reliable severity measurement. We validate the proposed method using two experimental datasets: an open IMS bearing dataset and data collected from a fanjet electric propulsion system. Results demonstrate that our method significantly reduces abrupt fluctuations and inconsistencies in anomaly scores. This provides a more dependable foundation for maintenance planning and risk management in safety-critical applications.
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