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Research on Weak Vibration Characteristics Based on EMD and Design of MZI Classifier
Weak vibration identification is one of the key challenges in the field of pipeline safety warning using distributed fiber optic sensor. In this paper, we proposed a novel algorithm that experimentally exhibits better performance concerning weak signal recognition over conventional programs. Empirical Mode Decomposition (EMD) was employed in the method considering that the temporal and spectral attributes could be better preserved and magnified in an intrinsic form than the original signal. After extensive observation and analysis, the second and third Intrinsic Mode Function (IMF) exhibited better consistency and identifiability among samples belonging to the same and different categories. As a substitute for the original signal, IMF 2 and IMF 3 were jointly utilized as the research target, where a series of carefully selected parameters were applied to evaluate the feasibility of the IMF features for weak vibration identification, giving birth to our classification vector V 2 . Combining V 2 with certain machine learning algorithms, precise identification of noise and five typical pipeline vibration signals was achieved. A conventional vector V 1 and a deep learning network were also provided as the control groups for two mainstream algorithms. Experimental results show that the val_accuracy of SVM- V 2 is 7.77% higher than V 1 . In terms of precision and recall, SVM- V 2 exceeds V 1 by 10.83% and 7.97%, and surpasses deep learning by 8.58% and 7.97%.
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