基于深度网络的SVM用于胸部X射线图像中的新冠肺炎检测

Q3 Engineering

Journal of Information and Communication Convergence Engineering Pub Date : 2022-09-30 DOI:10.56977/jicce.2022.20.3.219

Thanh-Nghi Do, Van-Thanh Le, T. Doan

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引用次数: 0

摘要

在这项研究中，我们建议在深度网络的基础上训练支持向量机（SVM）模型，用于从胸部X射线图像中检测新冠肺炎。我们首先收集了一个真实的胸部X光图像数据集，包括阳性新冠肺炎、正常病例和其他非新冠肺炎引起的肺部疾病。我们没有从头开始训练深度网络，而是微调了最近预先训练的深度网络模型，如DenseNet121、MobileNet v2、Inception v3、Xception、ResNet50、VGG16和VGG19，以将胸部X射线图像分类为三类（新冠肺炎、正常和其他肺部）之一。我们建议在深度网络之上训练SVM模型，以执行深度网络输出的非线性组合，从而改进对任何单个深度网络的分类。对真实胸部X射线图像数据集的经验测试结果表明，除了ResNet50（82.44%）外，深度网络模型在测试集上的准确率至少为92%。在深度网络之上提出的SVM实现了96.16%的最高准确率。©韩国信息通信工程研究所

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SVM on Top of Deep Networks for Covid-19 Detection from Chest X-ray Images

In this study, we propose training a support vector machine (SVM) model on top of deep networks for detecting Covid-19 from chest X-ray images. We started by gathering a real chest X-ray image dataset, including positive Covid-19, normal cases, and other lung diseases not caused by Covid-19. Instead of training deep networks from scratch, we fine-tuned recent pre-trained deep network models, such as DenseNet121, MobileNet v2, Inception v3, Xception, ResNet50, VGG16, and VGG19, to classify chest X-ray images into one of three classes (Covid-19, normal, and other lung). We propose training an SVM model on top of deep networks to perform a nonlinear combination of deep network outputs, improving classification over any single deep network. The empirical test results on the real chest X-ray image dataset show that deep network models, with an exception of ResNet50 with 82.44%, provide an accuracy of at least 92% on the test set. The proposed SVM on top of the deep network achieved the highest accuracy of 96.16%. © The Korea Institute of Information and Communication Engineering

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来源期刊

Journal of Information and Communication Convergence Engineering Engineering-Media Technology

CiteScore

1.10

自引率

0.00%

发文量

期刊介绍： Journal of Information and Communication Convergence Engineering (J. Inf. Commun. Converg. Eng., JICCE) is an official English journal of the Korea Institute of Information and Communication Engineering (KIICE). It is an international, peer reviewed, and open access journal that is published quarterly in March, June, September, and December. Its objective is to provide rapid publications of original and significant contributions and it covers all areas related to information and communication convergence engineering including the following areas: communication system and applications, networking and services, intelligent information system, multimedia and digital convergence, semiconductors and communication devices, imaging and biomedical engineering, and computer vision and autonomous vehicles.