Prediction of COVID-19 using hyperparameter optimized convolutional neural network

Q4 Social Sciences Turkish Journal of Computer and Mathematics Education Pub Date : 2021-04-24 DOI:10.17762/TURCOMAT.V12I9.3100

S. Saranya, R. Rajalaxmi, S. Mohanapriya, S. Prasida, P. Nithyalaxmi, J. Revathi

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Abstract

All over the world, there are heavy cases of COVID-19 patients those exhibiting the symptoms. In a very short period of time, this pandemic virus has become drastic across the country. A fast detection of corona spread is necessary for both the infected and uninfected person for the further spreading. The preexisting techniques used methods like Linear Regression, Support Vector Machine (SVM) and Naive Bayes are not producing better results. Our aim is to bring out better outcomes and to produce good accuracy. Instead of machine learning we opt for deep learning approaches in our work. Image preprocessing will be done by Histogram Equalization algorithm and further the image classification is done by Convolution Neural Network (CNN) architectures such as VGG-16 and ResNet-50 by using 350 images of X-ray datasets. From the comparison, VGG-16 produce better train and test accuracy of 92% and 98.4% .Hence the accuracy of VGG-16 was further tuned using Hyper Parameter Optimization using Tensor Board which produces better outcomes. © 2021 Karadeniz Technical University. All rights reserved.

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基于超参数优化卷积神经网络的COVID-19预测

在世界各地，都有大量新冠肺炎患者出现症状。在很短的时间内，这种新冠病毒在全国范围内变得非常严重。对于感染者和未感染者来说，快速检测电晕传播对于进一步传播是必要的。先前使用的技术，如线性回归、支持向量机（SVM）和朴素贝叶斯，并没有产生更好的结果。我们的目标是带来更好的结果，并产生良好的准确性。我们在工作中选择了深度学习方法，而不是机器学习。图像预处理将通过直方图均衡算法完成，并且进一步通过卷积神经网络（CNN）架构（例如VGG-16和ResNet-50）通过使用350个X射线数据集的图像来完成图像分类。通过比较，VGG-16产生了92%和98.4%的更好的训练和测试精度。因此，使用张量板的超参数优化对VGG-16的精度进行了进一步调整，产生了更好的结果。©2021卡拉德尼兹工业大学。保留所有权利。

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Turkish Journal of Computer and Mathematics Education Social Sciences-Education

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