Please use this identifier to cite or link to this item: https://elib.vku.udn.vn/handle/123456789/1844
Title: An Improvement in Medical Imaging via Self-Supervised Representation Learning
Authors: Tran, Nhat Minh Hoang
Tran, The Son
Nguyen, Duy Nghiem
Le, Minh Tuan
Keywords: COVID-19
Deep Learning
Self-Supervised Learning
Medical Imaging and Computer Tomography
Issue Date: 2021
Publisher: Da Nang Publishing House
Abstract: This paper proposes Self-Supervised COVIDNet (SSL-COVIDNet), which is a deep neural network designed for the Coronavirus disease (COVID-19) diagnosis from chest CT images based on self-supervised learning. The main ingredient of our model is Momentum Contrast (MoCo), which is a selfsupervised learning algorithm with a contrastive loss. Unlike the traditional approach to this task, SSL-COVIDNet is designed to pretrain more general image representations from unlabeled images. As a result, the pre-trained SSLCOVIDNet model can be fine-tuned for downstream tasks such as COVID-19 diagnosis with some linear layers without significant task-specific architecture modifications. On the COVIDx CT-2 dataset, which is a diverse dataset for COVID-19 diagnosis, our model achieves an accuracy of approximately 100% and 98% for training and evaluation during the pretraining phase. The results suggest the feasibility to use self-supervised learning as an effective technique to leverage existing unlabeled medical images, pretrain generalized models for medical imaging, and then fine-tune it for the task of desire.
Description: The 10th Conference on Information Technology and its Applications; Topic: Data Science and AI; pp. 22-31
URI: http://elib.vku.udn.vn/handle/123456789/1844
ISBN: 978-604-84-5998-7
Appears in Collections:CITA 2021

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