Application of time-frequency analysis and back-propagation neural network in the lung sound signal recognition

Mei-Yung Chen, Chien Chou Huang

Research output: Contribution to journalConference articlepeer-review

Abstract

In the diagnosis of the respiratory diseases, auscultation is a non-invasive and convenient diagnostic method. In the digital auscultation analysis, what method we use to analyze the lung signals which microphone recorded will affect the results of the experiment greatly. The purpose of this study is to use frequency analysis and time-frequency analysis to analyze the six lung sound signals, which are vesicular breath sounds, bronchial breath sounds, crackle, and wheeze. Finally, the study transformed the analysis results into the characteristic images, and put them to the back propagation neural network for training. After that, the study compares the results of the two methods. We also analyze the realistic lung sound signals and simulated lung sound signals, and compare the results finally. First, we use the piezoelectric microphone and data acquisition card NI-PXI 4472B to acquire LS signals, and signals preprocessing. Then we use Visual Signal to analyze the lung sound signals by time-frequency analysis. We also analyze the lung sound signals which are from the auscultation teaching website. Finally we compare the result of two kinds of signals, and assess their similarity and accuracy by the test of back-propagation neural network. According to the result of this study, we found that time-frequency analysis provide much information about the lung signals, and are more suitable as a basis of diagnosis, and increase the recognition rate of the back-propagation neural network.

Original languageEnglish
Pages (from-to)927-930
Number of pages4
JournalApplied Mechanics and Materials
Volume190-191
DOIs
Publication statusPublished - 2012 Oct 16
Event3rd International Conference on Digital Manufacturing and Automation, ICDMA 2012 - Guangxi, China
Duration: 2012 Aug 12012 Aug 2

Keywords

  • Back-propagation neural network
  • Lung sound signal
  • Time-frequency analysis

ASJC Scopus subject areas

  • Engineering(all)

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