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COVID-19 Classification Based on Deep Convolution Neural Network Over a Wireless Network

在一个无线网络上基于深卷绕旋转神经网络的 COVID-19 分类

作     者:Shalaby, Wafaa A. Saad, Waleed Shokair, Mona Abd El-Samie, Fathi E. Dessouky, Moawad I. 

作者机构:Menoufia Univ Dept Elect & Elect Commun Fac Elect Engn Menoufia 32952 Egypt Shaqra Univ Dept Elect Engn Coll Engn Dawadmi Ar Riyadh Saudi Arabia Princess Nourah BintAbdulrahman Univ Dept Informat Technol Coll Comp & Informat Sci Riyadh 21974 Saudi Arabia 

出 版 物:《WIRELESS PERSONAL COMMUNICATIONS》 (无线个人通信)

年 卷 期:2021年第120卷第2期

页      面:1543-1563页

核心收录:

学科分类:0810[工学-信息与通信工程] 0809[工学-电子科学与技术(可授工学、理学学位)] 08[工学] 

主  题:COVID-19 Convolution neural network Feature extraction Wireless communications 

摘      要:Corona Virus Disease 19 (COVID-19) firstly spread in China since December 2019. Then, it spread at a high rate around the world. Therefore, rapid diagnosis of COVID-19 has become a very hot research topic. One of the possible diagnostic tools is to use a deep convolution neural network (DCNN) to classify patient images. Chest X-ray is one of the most widely-used imaging techniques for classifying COVID-19 cases. This paper presents a proposed wireless communication and classification system for X-ray images to detect COVID-19 cases. Different modulation techniques are compared to select the most reliable one with less required bandwidth. The proposed DCNN architecture consists of deep feature extraction and classification layers. Firstly, the proposed DCNN hyper-parameters are adjusted in the training phase. Then, the tuned hyper-parameters are utilized in the testing phase. These hyper-parameters are the optimization algorithm, the learning rate, the mini-batch size and the number of epochs. From simulation results, the proposed scheme outperforms other related pre-trained networks. The performance metrics are accuracy, loss, confusion matrix, sensitivity, precision, F-1 score, specificity, Receiver Operating Characteristic (ROC) curve, and Area Under the Curve (AUC). The proposed scheme achieves a high accuracy of 97.8 %, a specificity of 98.5 %, and an AUC of 98.9 %.

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