Abstract
It became apparent that mankind has to learn to live with and adapt to COVID-19, especially because the developed vaccines thus far do not prevent the infection but rather just reduce the severity of the symptoms. The manual classification and diagnosis of COVID-19 pneumonia requires specialized personnel and is time consuming and very costly. On the other hand, automatic diagnosis would allow for real-time diagnosis without human intervention resulting in reduced costs. Therefore, the objective of this research is to propose a novel optimized Deep Learning (DL) approach for the automatic classification and diagnosis of COVID-19 pneumonia using X-ray images. For this purpose, a publicly available dataset of chest X-rays on Kaggle was used in this study. The dataset was developed over three stages in a quest to have a unified COVID-19 entities dataset available for researchers. The dataset consists of 21,165 anterior-to-posterior and posterior-to-anterior chest X-ray images classified as: Normal (48%), COVID-19 (17%), Lung Opacity (28%) and Viral Pneumonia (6%). Data Augmentation was also applied to increase the dataset size to enhance the reliability of results by preventing overfitting. An optimized DL approach is implemented in which chest X-ray images go through a three-stage process. Image Enhancement is performed in the first stage, followed by Data Augmentation stage and in the final stage the results are fed to the Transfer Learning algorithms (AlexNet, GoogleNet, VGG16, VGG19, and DenseNet) where the images are classified and diagnosed. Extensive experiments were performed under various scenarios, which led to achieving the highest classification accuracy of 95.63% through the application of VGG16 transfer learning algorithm on the augmented enhanced dataset with freeze weights. This accuracy was found to be better as compared to the results reported by other methods in the recent literature. Thus, the proposed approach proved superior in performance as compared with that of other similar approaches in the extant literature, and it made a valuable contribution to the body of knowledge. Although the results achieved so far are promising, further work is planned to correlate the results of the proposed approach with clinical observations to further enhance the efficiency and accuracy of COVID-19 diagnosis.
Highlights
The past one and half years were very tough and stressful for the entire globe with the outbreak of one of the most contagious corona virus diseases (COVID-19) attacking humanity and causing severe pneumonia-type symptoms targeting human respiratory systems
Even though the model proposed in this research has many other advantages and cannot be compared one to one with other existing models from the extant literature, with only the prediction accuracy comparison we show that the proposed model outperforms many of those proposed in the existing literature.Based on the presence of the imbalance in the image datasets, we believe there could be a possibility of improvement in the fairness of the proposed classifiers if the dataset can be suitably balanced across all classes [38]
We proposed, implemented, and evaluated an efficient automatic COVID-19 detection and diagnosis approach based on optimized deep learning (DL) techniques
Summary
The past one and half years were very tough and stressful for the entire globe with the outbreak of one of the most contagious corona virus diseases (COVID-19) attacking humanity and causing severe pneumonia-type symptoms targeting human respiratory systems. This disease was classified in March 2020 by the World Health Organization (WHO) as a pandemic due to its extremely rapid spread across the world. COVID-19 impacted almost all aspects of our lives in all sectors with novel and strictly imposed constraints These include the education sector, various businesses, living habits, the use of technology, hygiene awareness, and the health sector
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