Feature Extraction in non-stationary conditions
Résumé
Machine condition monitoring is a challenging task. This paper presents a technique on the domain of rotat-
ing machine fleet condition monitoring for non-stationary operating with emphasis on gears and bearings as
the most critical mechanical components. The machines are working on non-stationary conditions, on fac-
tual applications. This condition is causing an effect on the vibration signal as the operating frequencies are
varying. As a result, the signal cannot be used as a condition estimator on its raw form. Additionally, the
signal could contain more than one mechanical part interference, as well as casing or other resonances. While
we present the factor of non-stationary conditions and signal decomposing, current studies do not follow this
path. Most researchers require a large historical data as they use artificial intelligence on their try to be less
unproductive. More than that, on this study a comparison between the whole fleet and a single machine will be
presented, compared to cluster methods or machine to machine comparison. The proposed solution contains
the decomposition of the vibration signals, received from the main mechanical components of each individual,
in order to separate the internal forces that contain information on kinematic parts and are therefore potentially
symptomatic of faults in gears and bearings, to be used for Machine Health Monitoring. This decomposed
signal of each individual defines a stochastic process in the fleet provide different realizations. The deviating
machine is spotted within a monitoring framework by controlling if any new measurement can be accepted as
a realization of this stochastic process. The originality of this method stands on the equalization scheme which
is able to remove the effect of speed-varying transfer functions, so as to normalize the signal with respect to
the structural fingerprint of each individual part of the fleet. All the above, were applied in parallel with the
experimental procedure, on a set of machines, acting as a fleet. Vibration signals were taken from three points
of each mechanism. On the paper, the experimental procedure is presented in depth as well as the evaluation of
signals and the complete methodology of the condition monitoring.
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