Fault detection and diagnosis in synchronous motors using hidden Markov model-based semi-nonparametric approach

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Fault detection and diagnosis in synchronous motors using hidden Markov model-based semi-nonparametric approach
Title:
Fault detection and diagnosis in synchronous motors using hidden Markov model-based semi-nonparametric approach
Journal Title:
Engineering Applications of Artificial Intelligence
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Publication Date:
01 September 2013
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Abstract:
Early Detection and diagnosis of faults in industrial machines would reduce the maintenance cost and also increase the overall effectiveness by increasing the availability of the machinery systems. In this paper, a semi-nonparametric approach based on hidden Markov model is introduced for fault detection and diagnosis in synchronous motors. In this approach, after training the hidden Markov model classifiers (parametric stage), two matrices named probabilistic transition frequency profile and average probabilistic emission are computed based on the hidden Markov models for each signature (non-paramteric stage) using probabilistic inference. These matrices are later used in forming a similarity scoring function, which is the basis of the classification in this approach. Moreover, a preprocessing method, named squeezing and stretching is proposed which rectifies the difficulty of dealing with various operating speeds in the classification process. Finally, the experimental results are provided and compared. Further investigations are carried out, providing sensitivity analysis on the length of signatures, the number of hidden state values, as well as statistical performance evaluation and comparison with conventional hidden Markov model-based fault diagnosis approach. Results indicate the implementation of the proposed preprocessing, which unifies the signatures from various operating speeds, increases the classification accuracy by nearly 21% and moreover utilization of the proposed semi-nonparametric approach improves the accuracy further by nearly 6%.
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