COVID-19 Classification Using Deep Learning Two-Stage Approach
This work addresses COVID-19 diagnosis for medical imaging, but it is incremental as it applies existing methods to a new dataset without achieving the proposed improvement.
The paper tackled COVID-19 classification from X-ray images using deep learning, comparing a two-stage approach to a one-shot method, but found that VGG16 achieved 95% accuracy with the one-shot approach, contrary to their hypothesis.
In this paper, deep-learning-based approaches namely fine-tuning of pretrained convolutional neural networks (VGG16 and VGG19), and end-to-end training of a developed CNN model, have been used in order to classify X-Ray images into four different classes that include COVID-19, normal, opacity and pneumonia cases. A dataset containing more than 20,000 X-ray scans was retrieved from Kaggle and used in this experiment. A two-stage classification approach was implemented to be compared to the one-shot classification approach. Our hypothesis was that a two-stage model will be able to achieve better performance than a one-shot model. Our results show otherwise as VGG16 achieved 95% accuracy using one-shot approach over 5-fold of training. Future work will focus on a more robust implementation of the two-stage classification model Covid-TSC. The main improvement will be allowing data to flow from the output of stage-1 to the input of stage-2, where stage-1 and stage-2 models are VGG16 models fine-tuned on the Covid-19 dataset.