Mel-frequency cepstral based heart sound signal segmentation for decision support system

2017 25th Signal Processing and Communications Applications Conference (SIU) Pub Date : 2017-05-15 DOI:10.1109/SIU.2017.7960430

Gülsen Çelebi, Göksel Sözeri, A. Yilmaz, Deniz Katircioglu-Öztürk, S. Okutucu, B. Sayin, H. Aksoy, A. Oto

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引用次数: 2

Abstract

The classification of heart diseases depends on the correct identification of S1 and S2 segments. Without the ECG reference signal, segmentation methods become naturally more complicated. In the hospital environment, the heart sounds collected from the patients through the stethoscope carry unrequired environmental sounds such as ambient noise, speech, wheezing, and friction. Besides, depending on the heart condition, noise like murmur is also included in these heart sounds. Discrete Wavelet Transform and Mel-Frequency Cepstral Coefficient (MFCC) have been used as a hybrid solution for the filtering of the noise content of basic heart sounds. In order to determine S1-S2 locations, heart rate and systolic time intervals were predicted by using signal autocorrelation. As a result of this proposed algorithm, S1 and S2 sounds were detected with 98.19% precision and 98.52% recall for normal heart sounds, while S1 and S2 were detected with precision of 94.31% and recall of 96.92% for abnormal heart sounds.

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基于mel频率倒谱的心音信号分割决策支持系统

心脏病的分类取决于S1和S2节段的正确识别。没有心电参考信号，分割方法自然变得更加复杂。在医院环境中，通过听诊器从患者身上采集到的心音带有不必要的环境音，如环境噪声、语音、喘息声和摩擦声。此外，根据心脏状况，杂音等杂音也包括在这些心音中。将离散小波变换与mel -倒频系数(MFCC)作为一种混合滤波方法，用于基本心音噪声的滤波。为了确定S1-S2的位置，利用信号自相关预测心率和收缩时间间隔。结果表明，正常心音的S1、S2音检测准确率为98.19%，查全率为98.52%;异常心音的S1、S2音检测准确率为94.31%，查全率为96.92%。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

2017 25th Signal Processing and Communications Applications Conference (SIU)

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