Tracking and Visualizing Signs of Degradation for an Early Failure Prediction of a Rolling Bearing
This work addresses the problem of early failure prediction for rolling bearings, offering a method that is easy to deploy and understand for maintenance engineers.
This paper proposes a failure prediction scheme for rolling bearings that tracks early signs of degradation by visualizing full-spectrum vibration data. The method requires no training data and quickly starts after installation, predicting failures by plotting real-time frequency spectrum data on a 2D map composed of normal data.
Predictive maintenance, i.e. predicting failure to be few steps ahead of the fault, is one of the pillars of Industry 4.0. An effective method for that is to track early signs of degradation before a failure happens. This paper presents an innovative failure predictive scheme for machines. The proposed scheme combines the use of full spectrum of the vibration data caused by the machines and data visualization technologies. This scheme is featured by no training data required and by quick start after installation. First, we propose to use full spectrum (as high-dimensional data vector) with no cropping and no complex feature extraction and to visualize data behavior by mapping the high dimensional vectors into a 2D map. We then can ensure the simplicity of process and less possibility of overlooking of important information as well as providing a human-friendly and human-understandable output. Second, we propose Real-Time Data Tracker (RTDT) which predicts the failure at an appropriate time with sufficient time for maintenance by plotting real-time frequency spectrum data of the target machine on the 2D map composed from normal data. Third, we show the test results of our proposal using vibration data of bearings from real-world test-to-failure measurements provided by the public dataset, the IMS dataset.