利用x射线提供的深度学习方法检测和区分COVID-19

Ç. Erdaş, Didem Ölçer
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引用次数: 3

摘要

2019年底在中国出现的冠状病毒蔓延到世界各地,成为一种流行病。虽然死亡率不是很高,但由于高传播率,它阻碍了世界各地人们的生活。此外,与社会上的其他个体相比,老年人和慢性病患者的死亡率很高。早期发现感染者是对抗疾病和减缓疫情爆发的最有效方法之一。在这项研究中,已经开发了一种深度学习方法,它可以替代和支持传统的诊断工具,并辅以胸部x光片。这种具有卷积神经网络(cnn)架构的深度学习方法的目的是:(1)诊断由冠状病毒引起的肺炎,(2)找出胸片上出现肺炎症状的患者是由细菌还是冠状病毒引起的。为此目的,从各种公开来源汇集了一个新的数据库。该数据集包括被诊断为冠状病毒引起的肺炎的人的50张胸部x光片,属于对照组的健康个体的50张胸部x光片,以及被诊断为肺炎细菌的人的50张胸部x光片。我们的方法在基于冠状病毒的肺炎诊断任务(1)的准确率为92%,在寻找肺炎起源任务(2)的准确率为81%。此外,本文还详细说明了ROC曲线下面积(ROC_AUC)、精度、召回率、f1评分、特异性和阴性预测值(NPV)指标的成就。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Detection and differentiation of COVID-19 using deep learning approach fed by x-rays
The coronavirus, which appeared in China in late 2019, spread over the world and became an epidemic. Although the mortality rate is not very high, it has hampered the lives of people around the world due to the high rate of spread. Moreover, compared to other individuals in the society, the mortality rate in elderly individuals and people with chronic disease is high. The early detection of infected individuals is one of the most effective ways to both fight disease and slow the outbreak. In this study, a deep learning approach, which is alternative and supportive of traditional diagnostic tools and fed with chest x-rays, has been developed. The purpose of this deep learning approach, which has the convolutional neural networks (CNNs) architecture, is (1) to diagnose pneumonia caused by a coronavirus, (2) to find out if a patient with symptoms of pneumonia on chest X-ray is caused by bacteria or coronavirus. For this purpose, a new database has been brought together from various publicly available sources. This dataset includes 50 chest X-rays from people diagnosed with pneumonia caused by a coronavirus, 50 chest X-rays from healthy individuals belonging to the control group, and 50 chest X-rays from people diagnosed with bacterium from pneumonia. Our approach succeeded in terms of accuracy of 92% for corona virus-based pneumonia diagnosis tasks (1) and 81% for the task of finding the origin of pneumonia (2). Besides, achievements for Area Under the ROC Curve (ROC_AUC), Precision, Recall, F1-score, Specificity, and Negative Predictive Value (NPV) metrics are specified in this paper.
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