Mahtab Mehrabbeik, S. Rashidi, A. Fallah, Elaheh Rafiei Khoshnood
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引用次数: 0
摘要
心血管疾病(cvd)是每年死亡的主要原因之一。心血管疾病的早期诊断有助于控制和预防心脏病并发症。虽然听诊是cvd的常规诊断方法之一,但由于人的听力限制和心音的非静止性,听诊不够准确。由于心音或心音图(PCG)信号中含有心功能信息,可用于诊断各种类型的心血管疾病。本研究的目的是利用PCGs检测二尖瓣脱垂(PMV)。为了达到目标,首先,使用切比雪夫滤波器和小波变换(WT)对pcg进行去噪。然后,利用香农能量包络(Shannon Energy Envelope, SEE)和自适应阈值法,对去噪后的心电图进行心循环划分。采用分数阶傅立叶变换(FrFT)在时频空间中提取所需特征。基于马氏距离准则,选取最优特征。采用SVM分类器对15例脱垂患者和5例非脱垂患者进行分类,准确率达到95.65%。
Computerized Diagnosis of the Prolapsed Mitral Valve Using Heart Sound Signal
Cardiovascular diseases (CVDs) are one of the leading causes of death each year. Early diagnosis of CVDs can help to control and prevent the complication of heart diseases. Although auscultation is one of the conventional methods of CVDs diagnosis, it is not accurate enough because of the human hearing restrictions and nonstationary nature of the heart sounds. Because the heart sound or phonocardiogram (PCG) signal contains heart functional information, it can be employed to diagnose various types of CVDs. The goal of this study is to detect Mitral valve Prolapse (PMV) using PCGs. To reach the goal, first, the PCGs were denoised using the Chebyshev filter along with the Wavelet Transform (WT). Then, using the Shannon Energy Envelope (SEE) along with adaptive thresholding, the denoised PCGs were divided into the cardiac cycles. Fractional Fourier Transform (FrFT) was performed to extract the desired features in the time-frequency space. Based on the Mahalanobis distance criterion, the optimal features were selected. The results of the proposed algorithm on the 15 prolapsed and 5 non-prolapsed patients show 95.65% accuracy using the SVM classifier.
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