利用唇黏膜图像转移学习卷积神经网络进行无创贫血检测

IF 2.4 Q3 COMPUTER SCIENCE, INFORMATION SYSTEMS Frontiers in Big Data Pub Date : 2023-11-03 DOI:10.3389/fdata.2023.1291329
Mohammed Mansour, Turker Berk Donmez, Mustafa Kutlu, Shekhar Mahmud
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引用次数: 0

摘要

贫血被定义为健康人红细胞数量或血红蛋白浓度低于正常水平。尽管目前还没有可量化的测量方法,但皮肤苍白程度的增加可能因肤色而异。皮肤的苍白在角质层较薄的地方最为明显,如口腔、嘴唇或结膜的内部。这项工作的重点是贫血相关的苍白及其与血细胞计数值和人工智能的关系。在这项研究中,使用迁移学习和卷积神经网络(CNN)实现了一种深度学习方法,其中对VGG16、Xception、MobileNet和ResNet50架构进行了预训练,以使用唇粘膜图像预测贫血。共有138名志愿者(100名女性和38名男性)参与了开发数据集的工作,该数据集包含两个图像类别:健康和贫血。首先对仅可见嘴巴区域的单帧图像进行处理,进行数据论证,然后应用CNN模型对数据集嘴唇图像进行分类。采用统计指标来区分模型在准确性、精度、Recal和F1评分方面的表现。在使用的CNN算法中,发现Xception对唇形图像的分类准确率为99.28%,提供了最好的结果。其他CNN架构对于MobileNet的准确率为96.38%,对于ResNet %的准确率为95.65%,对于VGG16的准确率为92.39%。我们的研究结果表明,可以使用深度学习方法从单个嘴唇图像中诊断贫血。该数据集将在未来得到增强,以允许实时分类。
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Non-invasive detection of anemia using lip mucosa images transfer learning convolutional neural networks
Anemia is defined as a drop in the number of erythrocytes or hemoglobin concentration below normal levels in healthy people. The increase in paleness of the skin might vary based on the color of the skin, although there is currently no quantifiable measurement. The pallor of the skin is best visible in locations where the cuticle is thin, such as the interior of the mouth, lips, or conjunctiva. This work focuses on anemia-related pallors and their relationship to blood count values and artificial intelligence. In this study, a deep learning approach using transfer learning and Convolutional Neural Networks (CNN) was implemented in which VGG16, Xception, MobileNet, and ResNet50 architectures, were pre-trained to predict anemia using lip mucous images. A total of 138 volunteers (100 women and 38 men) participated in the work to develop the dataset that contains two image classes: healthy and anemic. Image processing was first performed on a single frame with only the mouth area visible, data argumentation was preformed, and then CNN models were applied to classify the dataset lip images. Statistical metrics were employed to discriminate the performance of the models in terms of Accuracy, Precision, Recal, and F1 Score. Among the CNN algorithms used, Xception was found to categorize the lip images with 99.28% accuracy, providing the best results. The other CNN architectures had accuracies of 96.38% for MobileNet, 95.65% for ResNet %, and 92.39% for VGG16. Our findings show that anemia may be diagnosed using deep learning approaches from a single lip image. This data set will be enhanced in the future to allow for real-time classification.
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来源期刊
CiteScore
5.20
自引率
3.20%
发文量
122
审稿时长
13 weeks
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