基于深度迁移学习和特征分类方法的COVID-19患者准确识别和预后的完整框架

IF 10.7 2区 计算机科学 Q1 COMPUTER SCIENCE, ARTIFICIAL INTELLIGENCE Artificial Intelligence Review Pub Date : 2022-01-29 DOI:10.1007/s10462-021-10127-8
Hossam Magdy Balaha, Eman M. El-Gendy, Mahmoud M. Saafan
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引用次数: 13

摘要

新冠肺炎的突然出现使世界陷入了严峻的形势。由于病毒的迅速传播以及感染患者和死亡人数的增加,新冠肺炎被宣布为大流行。这场疫情不仅对人类,而且对经济都有破坏性影响。尽管新冠肺炎的不同疫苗已经开发和可用,但科学家仍然警告公民新的严重病毒浪潮,因此,新冠肺炎的快速诊断是一个关键问题。胸部成像被证明是新冠肺炎早期检测的有力工具。本研究介绍了使用实验室检测结果对诊断患者进行新冠肺炎严重程度早期检测和早期预后的完整框架。它包括两个阶段(1)早期诊断阶段(EDP)和(2)早期预后阶段(EPP)。在EDP中,使用CT胸部图像诊断新冠肺炎患者。在当前的研究中,使用埃及的5159张新冠肺炎和10376张正常计算机断层扫描(CT)图像作为数据集,使用迁移学习训练7种不同的卷积神经网络。数据扩充常规技术和生成对抗性网络(GAN),CycleGAN和CCGAN,用于增加数据集中的图像,以避免过拟合问题。应用了28个实验,并获得了多个性能指标。通过EfficientNetB7体系结构,在没有扩充的情况下进行分类产生了(99.61%)的准确率。通过应用CycleGAN和CC-GAN增强,MobileNetV1和VGG-16架构的最大报告准确率分别为\(99.57%\)和\(99.14\%\)。在EPP中,使用实验室检测结果早期确定患者新冠肺炎严重程度的预后。在本研究中,应用了25种不同的分类技术,从不同的结果来看,Bagged Trees和Tree(Fine、Medium和Rourse)技术的最高准确率分别为98.70\%\和97.40\%\。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

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A complete framework for accurate recognition and prognosis of COVID-19 patients based on deep transfer learning and feature classification approach

The sudden appearance of COVID-19 has put the world in a serious situation. Due to the rapid spread of the virus and the increase in the number of infected patients and deaths, COVID-19 was declared a pandemic. This pandemic has its destructive effect not only on humans but also on the economy. Despite the development and availability of different vaccines for COVID-19, scientists still warn the citizens of new severe waves of the virus, and as a result, fast diagnosis of COVID-19 is a critical issue. Chest imaging proved to be a powerful tool in the early detection of COVID-19. This study introduces an entire framework for the early detection and early prognosis of COVID-19 severity in the diagnosed patients using laboratory test results. It consists of two phases (1) Early Diagnostic Phase (EDP) and (2) Early Prognostic Phase (EPP). In EDP, COVID-19 patients are diagnosed using CT chest images. In the current study, 5, 159 COVID-19 and 10, 376 normal computed tomography (CT) images of Egyptians were used as a dataset to train 7 different convolutional neural networks using transfer learning. Data augmentation normal techniques and generative adversarial networks (GANs), CycleGAN and CCGAN, were used to increase the images in the dataset to avoid overfitting issues. 28 experiments were applied and multiple performance metrics were captured. Classification with no augmentation yielded \(99.61\%\) accuracy by EfficientNetB7 architecture. By applying CycleGAN and CC-GAN Augmentation, the maximum reported accuracies were \(99.57\%\) and \(99.14\%\) by MobileNetV1 and VGG-16 architectures respectively. In EPP, the prognosis of the severity of COVID-19 in patients is early determined using laboratory test results. In this study, 25 different classification techniques were applied and from the different results, the highest accuracies were \(98.70\%\) and \(97.40\%\) reported by the Ensemble Bagged Trees and Tree (Fine, Medium, and Coarse) techniques respectively.

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来源期刊
Artificial Intelligence Review
Artificial Intelligence Review 工程技术-计算机:人工智能
CiteScore
22.00
自引率
3.30%
发文量
194
审稿时长
5.3 months
期刊介绍: Artificial Intelligence Review, a fully open access journal, publishes cutting-edge research in artificial intelligence and cognitive science. It features critical evaluations of applications, techniques, and algorithms, providing a platform for both researchers and application developers. The journal includes refereed survey and tutorial articles, along with reviews and commentary on significant developments in the field.
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