2023
DOI: 10.3390/lubricants11010033
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Method for On-Line Remaining Useful Life and Wear Prediction for Adjustable Journal Bearings Utilizing a Combination of Physics-Based and Data-Driven Models: A Numerical Investigation

Abstract: RUL (remaining useful life) estimation is one of the main functions of the predictive analytics systems for rotary machines. Data-driven models based on large amounts of multisensory measurements data are usually utilized for this purpose. The use of adjustable bearings, on the one hand, improves a machine’s performance. On the other hand, it requires considering the additional variability in the bearing parameters in order to obtain adequate RUL estimates. The present study proposes a hybrid approach to such … Show more

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Cited by 11 publications
(4 citation statements)
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“…The ensemble of the derived RULs and their HI trajectories were fused to estimate the final RUL directly. Shutin et al [32] proposed a hybrid approach to such prediction models involving the joint use of physics-based models of adjustable bearings and datadriven models for fast on-line prediction of their parameters. It had been tested on highly loaded locomotive traction motor axle bearings for consideration and prediction of their wear and RUL.…”
Section: Literature Reviewmentioning
confidence: 99%
“…The ensemble of the derived RULs and their HI trajectories were fused to estimate the final RUL directly. Shutin et al [32] proposed a hybrid approach to such prediction models involving the joint use of physics-based models of adjustable bearings and datadriven models for fast on-line prediction of their parameters. It had been tested on highly loaded locomotive traction motor axle bearings for consideration and prediction of their wear and RUL.…”
Section: Literature Reviewmentioning
confidence: 99%
“…Such methods open new avenues in certain RUL prediction tasks, such as tool wear prediction [16] and material fatigue life prediction [17]. Shutin et al [18] achieved fast online prediction of RUL for rotating instruments by jointly using a physically based adjustable bearing model and a data-driven model. Chao et al [19] proposed a data-driven model with physical enhancements that can be used for RUL prediction of aero-engines by combining the information of a physically based physical performance model with a deep learning algorithm.…”
Section: Introductionmentioning
confidence: 99%
“…In some work, the abnormal conditions are classified into different types of abnormal condition such as Run-in, Steady1, Steady2, Pre-critical and critical [15], or the flow regime is classified from the measured data [16,17]. Other studies focus on areas such as the anomaly detection of force signals [18], the classification of operational states [15,17,[19][20][21], load prediction [22], the estimation of model-based remaining useful life and wear prediction [23], and supervised wear volume estimation [24]. Data-driven regression models have been recently employed to assess the influence of temperature, bearing load, and rotational speed on the variation in friction torque and friction coefficient [25].…”
Section: Introductionmentioning
confidence: 99%