Abstract
Industrial practise typically applies pre-set original equipment manufacturers (OEMs) limits to turbomachinery online condition monitoring. However, aforementioned technique which considers sensor readings within range as normal state often get overlooked in the developments of degradation process. Thus, turbomachinery application in dire need of a responsive monitoring analysis in order to avoid machine breakdown before leading to a more disastrous event. A feasible machine learning algorithm consists of k-means and Gaussian Mixture Model (GMM) is proposed to observe the existence of signal trend or anomaly over machine active period. The aim of the unsupervised k-means is to determine the number of clusters, k according to the total trend detected from the processed dataset. Next, the designated k is input into the supervised GMM algorithm to initialize the number of components. Experiment results showed that the k-means-GMM model set up not only capable of statistically define machine state conditions, but also yield a time-dependent clustering image in reflecting degradation severity, as a mean to achieve predictive maintenance.
Highlights
Internet of things (IoT) latest development ensure remote information data access for the users
In the interest of identifying the availability of machine state condition and the changes in degradation process, the similar dataset is subject to kmeans-Gaussian mixture model (GMM) algorithm, as per Section 2
Fig. 10. 3-D scatter diagram for kalman coefficient and E3D2 statistical analysis suggest it is probable to apply Temperature T3 and PCD Pressure into k-means-GMM algorithm since the mentioned subset input associated with E3D2 calculation directly
Summary
Internet of things (IoT) latest development ensure remote information data access for the users. General clustering involves developing segmentation-based function by means of data statistical distribution, depth, distance, density and spectral [3]. The EM algorithm combined hierarchical clustering and GMM to develop a computational effective initial estimation for bulky Monte Carlo dataset [12]. Compared to other supervised methods, GMM allows more than one class label assigned to instance data when components overlapped. Contrary to forcing to pick up one class label only, mixed membership is useful when involving uncertainties Under such circumstances, false alarm is less likely to be trigger until distinctive degradation traits appears, i.e. two isolated GMM components. Provided with appropriate k component equivalent to number of class label, GMM illustrates both baseline and updated data batch in different component setting.
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