深度学习模型在COVID-19诊断中的应用

Sakarya University Journal of Computer and Information Sciences Pub Date : 2022-06-19 DOI:10.35377/saucis...1085625

Fuat Türk, Yunus Kökver

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引用次数: 3

摘要

COVID-19是一种致命的病毒，于2019年底首次出现，并在全球迅速传播。理解和分类计算机断层扫描图像(CT)对COVID-19的诊断至关重要。许多病例分类研究面临着许多问题，特别是数据不平衡和不充分。因此，深度学习方法对COVID-19的诊断具有重要意义。因此，我们有机会用我们合并的数据集研究NasNet-Mobile、DenseNet和NasNet-Mobile +DenseNet的架构。我们合并的COVID-19数据集分为3个不同的类别:正常、COVID-19和肺炎。结果表明，基于NasNet-Mobile、DenseNet和NasNet-Mobile+DenseNet的分类准确率分别为87.16%、93.38%和93.72%。结果再次证明了深度学习方法对COVID-19诊断的重要性。

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Application with deep learning models for COVID-19 diagnosis

COVID-19 is a deadly virus that first appeared in late 2019 and spread rapidly around the world. Understanding and classifying computed tomography images (CT) is extremely important for the diagnosis of COVID-19. Many case classification studies face many problems, especially unbalanced and insufficient data. For this reason, deep learning methods have a great importance for the diagnosis of COVID-19. Therefore, we had the opportunity to study the architectures of NasNet-Mobile, DenseNet and Nasnet-Mobile+DenseNet with the dataset we have merged. The dataset we have merged for COVID-19 is divided into 3 separate classes: Normal, COVID-19, and Pneumonia. We obtained the accuracy 87.16%, 93.38% and 93.72% for the NasNet-Mobile, DenseNet and NasNet-Mobile+DenseNet architectures for the classification, respectively. The results once again demonstrate the importance of Deep Learning methods for the diagnosis of COVID-19.

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Sakarya University Journal of Computer and Information Sciences

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