Leveraging Degradation Events for Enhanced Remaining Useful Life Prediction

Leveraging Degradation Events for Enhanced Remaining Useful Life Prediction

The remaining useful life (RUL) of complex mechanical systems is the primary aspect of prognostics and health management, which is critical for ensuring reliability and safety. Recent developments have shifted towards a data-driven approach, emphasizing empirical insights over expert opinions. The s...

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Bibliographic Details
Main Authors: Zeeshan Abbas, Muhammad Sharif, Musrat Hussain, Naeem Hussain, Mehboob Hussain, Naveed Ahmad Khan
Format: Article
Language:English
Published: MDPI AG 2025-06-01
Series:Information
Subjects:
remaining useful life
prognostics and health management
degradation events
machine learning
Online Access:https://www.mdpi.com/2078-2489/16/7/542
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Summary:The remaining useful life (RUL) of complex mechanical systems is the primary aspect of prognostics and health management, which is critical for ensuring reliability and safety. Recent developments have shifted towards a data-driven approach, emphasizing empirical insights over expert opinions. The similarity-based data-driven approach operates on the premise that systems with similar historical behaviors will likely exhibit similar future behaviors, making it suitable for RUL estimation. Conventionally, most similarity-based approaches utilize all historical data to identify reference systems for RUL estimations. However, not all historical events within a system hold equal significance for RUL. Certain events have a substantial impact on the remaining lifespan of a system. These significant and impactful events are called degradation events (DEs) in this study. Based on the hypothesis that systems undergoing similar DEs may share the same RUL, this study presents an innovative framework for RUL estimation that leverages only the DEs of a test system to identify reference systems that have experienced similar DEs. Furthermore, the model incorporates novel strategies for adjusting the RUL of the reference system based on the initial wear and degradation rates, thereby improving estimation accuracy. The effectiveness of the proposed model, in comparison with similar state-of-the-art models, is demonstrated through experiments on widely recognized jet engine datasets provided by NASA and bearing degradation data from the XJTU-SY.
ISSN:2078-2489

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