Detecting COVID-19 from Chest X-Ray Images using a Lightweight Deep Transfer Learning Model with Improved Contrast Enhancement Technique

Dave Jammin A. Bacad, Patricia Angela R. Abu
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Abstract

Despite the vaccinations, the emergence of new and more contagious variants of the COVID-19 disease has continued to pose threats and challenges to our lives. Until herd immunity is achieved, it is important to continuously perform screening tests to control and minimize the transmissions. Due to the reported shortcomings of the RT-PCR, the utilization of deep learning for detecting COVID-19 from Chest X-Ray (CXR) images has gathered a lot of interest from researchers. As a contribution to the field, this study proposes a deep learning pipeline that utilizes transfer learning and image enhancement techniques to classify whether a given CXR image exhibits characteristics of COVID-19 infection, pneumonia infection, or normal/healthy lungs. For a lighter approach, the small pre-trained model named EfficientNetB0 is used as the base model for the transfer learning method. To improve the network’s performance, a sequence of contrast enhancement techniques namely the Multi-Scale Retinex (MSR) and Contrast Limited Adaptive Histogram Equalization (CLAHE) is introduced in the pipeline and employed as a pre-processing step. Gathered from a 10-fold cross-validation method in a dataset with 3729 images per class, results show that the proposed approach achieves an average overall accuracy of 92.089% with 98.431% average precision, 95.119% average recall, and 96.741% average f1-score for the COVID-19 class.
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基于改进对比度增强技术的轻量级深度迁移学习模型从胸部x射线图像中检测COVID-19
尽管接种了疫苗,但新出现的更具传染性的COVID-19变种继续对我们的生活构成威胁和挑战。在实现群体免疫之前,重要的是继续进行筛查试验,以控制和尽量减少传播。由于RT-PCR的缺点,利用深度学习从胸部x射线(CXR)图像中检测COVID-19引起了许多研究人员的兴趣。作为对该领域的贡献,本研究提出了一个深度学习管道,该管道利用迁移学习和图像增强技术来分类给定的CXR图像是否表现出COVID-19感染、肺炎感染或正常/健康肺部的特征。对于较轻的方法,使用名为effentnetb0的小型预训练模型作为迁移学习方法的基础模型。为了提高网络的性能,在流水线中引入了一系列对比度增强技术,即多尺度Retinex (MSR)和对比度有限自适应直方图均衡化(CLAHE),并将其作为预处理步骤。通过对每类3729张图像的数据集进行10倍交叉验证,结果表明,该方法的平均总体准确率为92.089%,平均精密度为98.431%,平均召回率为95.119%,平均f1分数为96.741%。
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