基于DCNN和Stacknet迁移学习的肺炎x射线图像快速分类新模型

Jalal Rabbah, Mohammed Ridouani, L. Hassouni
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引用次数: 0

摘要

冠状病毒已在全球蔓延,确诊病例超过6.88亿例,死亡人数超过680万人。这一结果可能很重要,因为遏制限制开始放松,我们也不能对新菌株免疫。它们强调需要引入越来越有效的技术来应对这种传播,并帮助以合理的成本和最低的错误率更快地识别新的感染。机器学习模型构成了一种新的方法,越来越多地应用于这一领域。在本文提出的工作中,作者基于StackNet元建模方法,结合深度卷积神经网络作为x射线图像特征提取的基础,构建了一个名为CovStacknet的分类模型。首先,该模型使用VGG16作为深度卷积神经网络的迁移学习,准确率达到98%。其次,将所提出的模型扩展到ResNet-50、Inception-V3、MobileNet-V2和DenseNet 4个深度卷积神经网络,其中ResNet-50的性能最好。
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A New Classification Model Based on Transfer Learning of DCNN and Stacknet for Fast Classification of Pneumonia Through X-Ray Images
Coronavirus has spread worldwide, with over 688 million confirmed cases and 6.8 million deaths. The results could be important as containment restrictions begin to be relaxed and we are not immune to new strains. They underscore the need to introduce increasingly effective techniques to deal with such a spread and help identify new infections more quickly, at a reasonable cost and with a minimum error rate. Machine learning models constitute a new approach, used increasingly in this field. In this proposed work, the authors built a classification model named CovStacknet based on StackNet metamodeling methodology combined with the deep convolutional neural network as the basis for feature extraction from x-ray images. Firstly, the proposed model used VGG16 as a transfer learning of deep convolutional neural networks and achieved an accuracy score of 98%. Secondly, the proposed model is extended to evaluate four other deep convolutional neural networks, ResNet-50, Inception-V3, MobileNet-V2 and DenseNet, and ResNet-50, has achieved the best performance.
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3.20
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发文量
43
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