Comparison of wavelet-based decomposition and empirical mode decomposition of electrohysterogram signals for preterm birth classification

Abstract

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Signal decomposition is a computational technique that dissects a signal into its constituent components, providing supplementary information. In this study, the capability of two common signal decomposition techniques, including wavelet-based and empirical mode decomposition, on preterm birth classification was investigated. Ten time-domain features were extracted from the constituent components of electrohysterogram (EHG) signals, including EHG subbands and EHG intrinsic mode functions, and employed for preterm birth classification. Preterm birth classification and anticipation are crucial tasks that can help reduce preterm birth complications. The computational results show that the preterm birth classification obtained using wavelet-based decomposition is superior. This, therefore, implies that EHG subbands decomposed through wavelet-based decomposition provide more applicable information for preterm birth classification. Furthermore, an accuracy of 0.9776 and a specificity of 0.9978, the best performance on preterm birth classificationamong state-of-the-art signal processing techniques, were obtained using the time-domain features of EHG subbands.

Keywords

• classification
• electrohysterogram signals
• empirical mode decomposition
• preterm birth
• time-domain features
• wavelet-based decomposition