Detection of machine mechanical faults using vibrations and deep autoencoders
Résumé
Deep learning models represent a new learning paradigm in artificial intelligence (AI). Recent breakthroughs
in image analysis and voice recognition have generated enormous interest in many other areas such as the
diagnosis of rotating machinery providing voluminous data during the life of these machines.
A gear endurance test bench was designed to create a database of vibration signals ranging from a healthy state
to a degraded state. The aim of our work is to test common methods and the use of unsupervised deep learning
in the detection of deviation from the normal operating state of the machine [1].
After a description of the bench, we present the progress of the test over one year. The data collected consists
of a representative set of vibration signals corresponding to different operating environments (speed,
temperature, etc.).
Then we present the experimental study using deep auto-encoding networks and we compare with usual
methods. The principle of the chosen approach is to train the autoencoder with the healthy data, so that it
should learn to reconstruct only this type of data. When a new sample of data is supplied to the network, the
reconstruction error is calculated and the objective to try to achieve is to obtain a low error for the healthy data
and an error which begins to increase as the defect develops. We conclude our paper with the work
perspectives.
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