COVID-19 and Respiratory Diseases Classification using Deep Convolution Neuron Network

2022 19th International Joint Conference on Computer Science and Software Engineering (JCSSE) Pub Date : 2022-06-22 DOI:10.1109/jcsse54890.2022.9836259

Orawan Chunhapran, S. Vonganansup, Tongjai Yampaka, Rath Burirat

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Abstract

This study proposes COVID-19 and Respiratory Diseases Classification using Deep Convolution Neuron Network. ICBHI 2017 Respiratory Sound Database including COVID-19 from Coswara databased were used in our experiments. The potential results show that the left side model performances are 0.85 accuracy, 0.76 sensitivity, and 0.90 specificity. The right side model performances are 0.86 accuracy, 0.76 sensitivity, and 0.93 specificity. No side set model performances are 0.83 accuracy, 0.71 sensitivity, and 0.93 specificity. In addition, the lung characteristics and lung functions are different among left and right. Therefore, the breathing sound from left and right lung are difference. For this reason, the cross-model performances were evaluated to test this assumption. The cross-model performance results show that the left data is consistent with the left model. As same as the right data is consistent with the right model. Furthermore, the experiment found that mixing training data built the no side set model is the lowest performance. In addition, the proposed framework tends to achieve high performance when compared with a recent study.

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基于深度卷积神经元网络的COVID-19和呼吸系统疾病分类

本研究提出了基于深度卷积神经元网络的COVID-19和呼吸系统疾病分类方法。我们的实验使用ICBHI 2017呼吸声数据库，包括来自Coswara数据库的COVID-19。潜在结果表明，左侧模型的准确率为0.85，灵敏度为0.76，特异性为0.90。右侧模型的准确率为0.86，灵敏度为0.76，特异性为0.93。无侧集模型的准确率为0.83，灵敏度为0.71，特异性为0.93。此外，左右肺的肺特征和肺功能也不同。因此，从左肺和右肺发出的呼吸声是不同的。出于这个原因，我们对跨模型性能进行了评估，以验证这一假设。跨模型性能结果表明，左侧数据与左侧模型一致。正确的数据与正确的模型是一致的。此外，实验发现混合训练数据构建无侧集模型的性能最低。此外，与最近的研究相比，所提出的框架倾向于实现高性能。

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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2022 19th International Joint Conference on Computer Science and Software Engineering (JCSSE)

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