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通过添加人工噪声利用深度卷积神经网络进行异常呼吸音分类

Abnormal Respiratory Sounds Classification Using Deep CNN Through Artificial Noise Addition.

作者信息

Zulfiqar Rizwana, Majeed Fiaz, Irfan Rizwana, Rauf Hafiz Tayyab, Benkhelifa Elhadj, Belkacem Abdelkader Nasreddine

机构信息

Faculty of Computing and Information Technology, University of Gujrat, Gujrat, Pakistan.

Department of Information Technology, College of Computing and Information Technology at Khulais, University of Jeddah, Jeddah, Saudi Arabia.

出版信息

Front Med (Lausanne). 2021 Nov 17;8:714811. doi: 10.3389/fmed.2021.714811. eCollection 2021.

Abstract

Respiratory sound (RS) attributes and their analyses structure a fundamental piece of pneumonic pathology, and it gives symptomatic data regarding a patient's lung. A couple of decades back, doctors depended on their hearing to distinguish symptomatic signs in lung audios by utilizing the typical stethoscope, which is usually considered a cheap and secure method for examining the patients. Lung disease is the third most ordinary cause of death worldwide, so; it is essential to classify the RS abnormality accurately to overcome the death rate. In this research, we have applied Fourier analysis for the visual inspection of abnormal respiratory sounds. Spectrum analysis was done through Artificial Noise Addition (ANA) in conjunction with different deep convolutional neural networks (CNN) to classify the seven abnormal respiratory sounds-both continuous (CAS) and discontinuous (DAS). The proposed framework contains an adaptive mechanism of adding a similar type of noise to unhealthy respiratory sounds. ANA makes sound features enough reach to be identified more accurately than the respiratory sounds without ANA. The obtained results using the proposed framework are superior to previous techniques since we simultaneously considered the seven different abnormal respiratory sound classes.

摘要

呼吸音(RS)属性及其分析构成了肺部病理学的一个基本部分,并且它提供有关患者肺部的诊断信息。几十年前,医生依靠他们的听力,通过使用传统听诊器来辨别肺部音频中的诊断迹象,传统听诊器通常被认为是一种检查患者的廉价且安全的方法。肺部疾病是全球第三大常见死因,所以,准确分类呼吸音异常对于降低死亡率至关重要。在本研究中,我们应用傅里叶分析对异常呼吸音进行视觉检查。通过人工噪声添加(ANA)结合不同的深度卷积神经网络(CNN)进行频谱分析,以对七种异常呼吸音——连续(CAS)和不连续(DAS)——进行分类。所提出的框架包含一种自适应机制,即向不健康的呼吸音添加类似类型的噪声。与未使用ANA的呼吸音相比,ANA使声音特征足够明显,从而能更准确地识别。使用所提出的框架获得的结果优于先前的技术,因为我们同时考虑了七种不同的异常呼吸音类别。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/aff7/8635523/54f26bba9fdd/fmed-08-714811-g0001.jpg

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