Author(s)

Eri Matsuyama^1*, Haruyuki Watanabe², Noriyuki Takahashi³

¹Faculty of Informatics, University of Fukuchiyama, Kyoto, Japan.
²School of Radiological Technology, Gunma Prefectural College of Health Sciences, Gunma, Japan.
³School of Hearth Sciences, Fukushima Medical University, Fukushima, Japan.

In recent years, with numerous developments of convolutional neural network (CNN) classification models for medical diagnosis, the issue of misrecognition/misclassification has become more and more important. Thus, research on misrecognition/misclassification has been progressing. This study focuses on the problem of misrecognition/misclassification of CNN classification models for coronavirus disease (COVID-19) using chest X-ray images. We construct two models for COVID-19 pneumonia classification by fine-tuning ResNet-50 architecture, i.e., a model retrained with full-sized original images and a model retrained with segmented images. The present study demonstrates the uncertainty (misrecognition/misclassification) of model performance caused by the discrepancy in the shapes of images at the phase of model construction and that of clinical applications. To achieve it, we apply three XAI methods to demonstrate and explain the uncertainty of classification results obtained from the two constructed models assuming for clinical applications. Experimental results indicate that the performance of classification models cannot be maintained when the type of constructed model and the geometric shape of input images are not matched, which may bring about misrecognition in clinical applications. We also notice that the effect of adversarial attack might be induced if the method of image segmentation is not performed properly. The results suggest that the best approach to obtaining a highly reliable prediction in the classification of COVID-19 pneumonia is to construct a model using full-sized original images as training data and use full-sized original images as the input when utilized in clinical applications.

Explainable AI, CNN, CXR Image, COVID-19 Pneumonia

Matsuyama, E. , Watanabe, H. and Takahashi, N. (2022) Explainable Analysis of Deep Learning Models for Coronavirus Disease (COVID-19) Classification with Chest X-Ray Images: Towards Practical Applications. Open Journal of Medical Imaging, 12, 83-102. doi: 10.4236/ojmi.2022.123009.