Abstract
The monitoring of rotating machinery is an essential activity for asset management today. Due to the large amount of monitored equipment, analyzing all the collected signals/features becomes an arduous task, leading the specialist to rely often on general alarms, which in turn can compromise the accuracy of the diagnosis. In order to make monitoring more intelligent, several machine learning techniques have been proposed to reduce the dimension of the input data and also to analyze it. This paper, therefore, aims to compare the use of vibration features extracted based on machine learning models, expert domain, and other signal processing approaches for identifying bearing faults (anomalies) using machine learning (ML)—in addition to verifying the possibility of reducing the number of monitored features, and consequently the behavior of the model when working with reduced dimensionality of the input data. As vibration analysis is one of the predictive techniques that present better results in the monitoring of rotating machinery, vibration signals from an experimental bearing dataset were used. The proposed features were used as input to an unsupervised anomaly detection model (Isolation Forest) to identify bearing fault. Through the study, it is possible to verify how the ML model behaves in view of the different possibilities of input features used, and their influences on the final result in addition to the possibility of reducing the number of features that are usually monitored by reducing the dimension. In addition to increasing the accuracy of the model when extracting correct features for the application under study, the reduction in dimensionality allows the specialist to monitor in a compact way the various features collected on the equipment.
Highlights
Rotating machinery plays an important role in industrial applications [1]
Such knowledge allows the application of machine learning (ML) models, and, it was Informatics 2021, 8, 85 decided to work with ’classic’ ML techniques, exploring the wide knowledge of filtering approaches and features definitions provided by the literature
This paper presents a comparison of different features extracted from the vibration signal and dimensionality reduction techniques, in the unsupervised detection of fault in rotating machinery, especially bearings
Summary
Rotating machinery plays an important role in industrial applications [1]. Among the various types of essential rotating parts, rolling element bearings are considered one of the most important. Among the main monitoring techniques currently used, predictive maintenance (PdM) stands out, which include: vibration, oil, thermography analysis, etc. Due to advances in monitoring systems and methods for predicting remaining useful life (RUL), PdM has increasingly become a focus of interest for professionals and researchers [2]. Since vibration analysis is one of the non-invasive techniques, which presents the greatest amount of information about the monitored component, its use in industry increases every day. It is important to note that, depending on the type of asset being monitored, other predictive techniques are commonly used to monitor: stator current, stray fluxes, thermal image, oil, noise level, etc
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