COVID-19 quickly became a global pandemic after only four months of its first detection. It is crucial to detect this disease as soon as possible to decrease its spread. The use of chest X-ray (CXR) images became an effective screening strategy, complementary to the reverse transcription-polymerase chain reaction (RT-PCR). Convolutional neural networks (CNNs) are often used for automatic image classification and they can be very useful in CXR diagnostics. In this paper, 21 different CNN architectures are tested and compared in the task of identifying COVID-19 in CXR images. They were applied to the COVIDx8B dataset, a large COVID-19 dataset with 16,352 CXR images coming from patients of at least 51 countries. Ensembles of CNNs were also employed and they showed better efficacy than individual instances. The best individual CNN instance results were achieved by DenseNet169, with an accuracy of 98.15% and an F1 score of 98.12%. These were further increased to 99.25% and 99.24%, respectively, through an ensemble with five instances of DenseNet169. These results are higher than those obtained in recent works using the same dataset.
翻译:COVID-19在第一次检测后仅四个月就迅速成为全球流行病。 尽快检测这种疾病对于减少其传播至关重要。 胸X光(CXR)图像的使用成为有效的筛选战略,是对反转录录成聚合酶链反应(RT-PCR)的补充。 进化神经网络(CNNs)经常用于自动图像分类,在CXR诊断中非常有用。 在本文中,21个不同的CNN结构在CXR图像中识别COVID-19的任务中经过测试和比较,这些结构被进一步应用于COVIDx8B数据集,一个大型COVID-19数据集,其中来自至少51个国家的病人的16,352 CXR图像是16,352 CXR。CNN的集合也被用来进行自动图像分类,其效果比个别实例要好。 DenseNet169实现了最佳的个人CNN实例,其准确率为98.15%,F1分为98.12%。这些结构进一步增加到99.25%和99.24%,它们分别用于COVID-199最近使用DM169数据获得的5种更高的结果。
相关内容
微信扫码咨询专知VIP会员