Performance Evaluation of CNN-based Transfer Learning for COVID-19 Pneumonia Identification with Various Levels of Layer Partial Freezing

2022 International Conference on Engineering & MIS (ICEMIS) Pub Date : 2022-07-04 DOI:10.1109/ICEMIS56295.2022.9914248

Kefah Alissa, Rasha Obeidat, Samer Alqudah, Rami Obeidat, Qusai Ismail

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引用次数: 1

Abstract

Pneumonia is a serious complication of coronavirus that can be fatal, especially among the elderly. Early diagnosis of COVID-19 pneumonia increases the likelihood of recovery and prevents the further spread of the virus. Chest X-ray (CXR) images can be utilized to detect specific signs associated with COVID-19, but this needs well-trained radiologists. Alternatively, deep Convolutional Neural Network (CNN)-based models have been successfully applied to diagnose COVID-19 and the associated pneumonia from CXR using transfer learning. This study explores various levels combining layer fine-tuning and freezing in two popular pretrained CNN-based models, VGG16 and ResNET50, and how these combinations influence the learning transferability of pretrained models to improve the identification of COVID-19 pneumonia from CXR images. We found that robust models can be learned with less labeled data in a shorter training time by applying partial freezing instead of the full network fine-tuning without sacrificing a significant portion of their diagnostic performance.

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基于cnn的迁移学习在不同层次部分冻结下的COVID-19肺炎识别性能评价

肺炎是冠状病毒的一种严重并发症，可能是致命的，尤其是在老年人中。早期诊断COVID-19肺炎可增加康复的可能性，并防止病毒进一步传播。胸部x射线(CXR)图像可用于检测与COVID-19相关的特定体征，但这需要训练有素的放射科医生。另外，基于深度卷积神经网络(CNN)的模型已成功应用于通过迁移学习从CXR中诊断COVID-19和相关肺炎。本研究探讨了两种流行的基于cnn的预训练模型VGG16和ResNET50中不同层次的结合层微调和冻结，以及这些组合如何影响预训练模型的学习可转移性，以提高从CXR图像中识别COVID-19肺炎的能力。我们发现，通过应用部分冻结而不是整个网络微调，可以在更短的训练时间内用更少的标记数据学习鲁棒模型，而不会牺牲其诊断性能的很大一部分。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2022 International Conference on Engineering & MIS (ICEMIS)

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