Noise robust gearbox defect diagnosis
Résumé
Vibratory analysis focused on the detection of periodically impulsive signatures caused by tooth
crack of a gearbox in early stage is of a great interest in industrial applications. This problem has
received great attention in the last decades. A wide variety of model-based approaches requiring
advanced methods for processing and analyzing the vibration signal for early fault detection have been
proposed. For the vibration signal processing about gearbox fault diagnosis, the noise caused by data
acquisition systems and other machine elements, must be properly filtered from the recorded vibration
signal. A novel gearbox fault diagnosis method taking into account modeling errors of vibration signal,
additive noises and the knowledge of the default frequency is proposed.
A new model of faulty vibration signal from those usually used for gearbox fault diagnosis is
introduced. Then an optimal estimator, combining simultaneously an optimal strategy for noise filtering
of the recorded signal and the estimation of fault signal by a deconvolution approach based on the least
squares optimization, is determined.
The new approach was applied to simulated faulty vibration signal under constant speed
condition and the results showed the robustness of the proposed technique against to noise and its
reliability for fault diagnosis
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