A change point detection integrated remaining useful life estimation model under variable operating conditions
By informing the onset of the degradation process, health status evaluation serves as a significant preliminary step for reliable remaining useful life (RUL) estimation of complex equipment. This paper proposes a novel temporal dynamics learning-based model for detecting change points of individu...
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sg-ntu-dr.10356-1779602024-06-03T07:33:52Z A change point detection integrated remaining useful life estimation model under variable operating conditions Arunan, Anushiya Qin, Yan Li, Xiaoli Yuen, Chau School of Electrical and Electronic Engineering Engineering Temporal dynamics learning Change point detection By informing the onset of the degradation process, health status evaluation serves as a significant preliminary step for reliable remaining useful life (RUL) estimation of complex equipment. This paper proposes a novel temporal dynamics learning-based model for detecting change points of individual devices, even under variable operating conditions, and utilises the learnt change points to improve the RUL estimation accuracy. During offline model development, the multivariate sensor data are decomposed to learn fused temporal correlation features that are generalisable and representative of normal operation dynamics across multiple operating conditions. Monitoring statistics and control limit thresholds for normal behaviour are dynamically constructed from these learnt temporal features for the unsupervised detection of device-level change points. The detected change points then inform the degradation data labelling for training a long short-term memory (LSTM)-based RUL estimation model. During online monitoring, the temporal correlation dynamics of a query device is monitored for breach of the control limit derived in offline training. If a change point is detected, the device's RUL is estimated with the well-trained offline model for early preventive action. Using C-MAPSS turbofan engines as the case study, the proposed method improved the accuracy by 5.6\% and 7.5\% for two scenarios with six operating conditions, when compared to existing LSTM-based RUL estimation models that do not consider heterogeneous change points. Agency for Science, Technology and Research (A*STAR) National Research Foundation (NRF) This work was in part supported by the National Research Foundation, Singapore under its AI Singapore Programme (AISG Award No: AISG2-RP-2021-027), and was supported by the A*STAR Graduate Scholarship. 2024-06-03T07:29:21Z 2024-06-03T07:29:21Z 2024 Journal Article Arunan, A., Qin, Y., Li, X. & Yuen, C. (2024). A change point detection integrated remaining useful life estimation model under variable operating conditions. Control Engineering Practice, 144, 105840-. https://dx.doi.org/10.1016/j.conengprac.2023.105840 0967-0661 https://hdl.handle.net/10356/177960 10.1016/j.conengprac.2023.105840 2-s2.0-85181902665 144 105840 en AISG2-RP-2021-027 Control Engineering Practice © 2024 Elsevier Ltd. All rights reserved. |
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| topic |
Engineering Temporal dynamics learning Change point detection |
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Engineering Temporal dynamics learning Change point detection Arunan, Anushiya Qin, Yan Li, Xiaoli Yuen, Chau A change point detection integrated remaining useful life estimation model under variable operating conditions |
| description |
By informing the onset of the degradation process, health status evaluation
serves as a significant preliminary step for reliable remaining useful life
(RUL) estimation of complex equipment. This paper proposes a novel temporal
dynamics learning-based model for detecting change points of individual
devices, even under variable operating conditions, and utilises the learnt
change points to improve the RUL estimation accuracy. During offline model
development, the multivariate sensor data are decomposed to learn fused
temporal correlation features that are generalisable and representative of
normal operation dynamics across multiple operating conditions. Monitoring
statistics and control limit thresholds for normal behaviour are dynamically
constructed from these learnt temporal features for the unsupervised detection
of device-level change points. The detected change points then inform the
degradation data labelling for training a long short-term memory (LSTM)-based
RUL estimation model. During online monitoring, the temporal correlation
dynamics of a query device is monitored for breach of the control limit derived
in offline training. If a change point is detected, the device's RUL is
estimated with the well-trained offline model for early preventive action.
Using C-MAPSS turbofan engines as the case study, the proposed method improved
the accuracy by 5.6\% and 7.5\% for two scenarios with six operating
conditions, when compared to existing LSTM-based RUL estimation models that do
not consider heterogeneous change points. |
| author2 |
School of Electrical and Electronic Engineering |
| author_facet |
School of Electrical and Electronic Engineering Arunan, Anushiya Qin, Yan Li, Xiaoli Yuen, Chau |
| format |
Article |
| author |
Arunan, Anushiya Qin, Yan Li, Xiaoli Yuen, Chau |
| author_sort |
Arunan, Anushiya |
| title |
A change point detection integrated remaining useful life estimation model under variable operating conditions |
| title_short |
A change point detection integrated remaining useful life estimation model under variable operating conditions |
| title_full |
A change point detection integrated remaining useful life estimation model under variable operating conditions |
| title_fullStr |
A change point detection integrated remaining useful life estimation model under variable operating conditions |
| title_full_unstemmed |
A change point detection integrated remaining useful life estimation model under variable operating conditions |
| title_sort |
change point detection integrated remaining useful life estimation model under variable operating conditions |
| publishDate |
2024 |
| url |
https://hdl.handle.net/10356/177960 |
| _version_ |
1800916275705151488 |