Multi-Scale Residual Network for Covid-19 Diagnosis Using Ct-Scans

ICASSP 2021 - 2021 IEEE International Conference on Acoustics, Speech and Signal Processing (ICASSP) Pub Date : 2021-06-06 DOI:10.1109/ICASSP39728.2021.9414426

Pratyush Garg, R. Ranjan, Kamini Upadhyay, M. Agrawal, D. Deepak

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引用次数: 20

Abstract

To mitigate the outbreak of highly contagious COVID-19, we need a sensitive, robust automated diagnostic tool. This paper proposes a three-level approach to separate the cases of COVID-19, pneumonia from normal patients using chest CT scans. At the first level, we fine tune a multi-scale ResNet50 model for feature extraction from all the slices of CT scan for each patient. By using multi-scale residual network, we can learn different sizes of infection, thereby making the detection possible at early stages too. These extracted features are used to train a patient-level classifier, at the second level. Four different classifiers are trained at this stage. Finally, predictions of patient level classifiers are combined by training an ensemble classifier. We test the proposed method on three sets of data released by ICASSP, COVID-19 Signal Processing Grand Challenge (SPGC). The proposed method has been successful in classifying the three classes with a validation accuracy of 94.9% and testing accuracy of 88.89%.

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基于ct扫描的Covid-19多尺度残差网络诊断

为了缓解高传染性COVID-19的爆发，我们需要一种敏感、强大的自动化诊断工具。本文提出了一种利用胸部CT扫描将新冠肺炎病例与正常患者区分开来的三级方法。首先，我们对一个多尺度ResNet50模型进行微调，从每个患者的CT扫描的所有切片中提取特征。通过使用多尺度残差网络，我们可以了解不同的感染规模，从而使早期检测成为可能。在第二层，这些提取的特征用于训练患者级别的分类器。在这个阶段训练四个不同的分类器。最后，通过训练集成分类器将患者级别分类器的预测组合起来。我们在ICASSP, COVID-19信号处理大挑战(SPGC)发布的三组数据上测试了所提出的方法。该方法成功地对三类进行了分类，验证准确率为94.9%，测试准确率为88.89%。

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ICASSP 2021 - 2021 IEEE International Conference on Acoustics, Speech and Signal Processing (ICASSP)

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