基于机器学习的COVID-19电子CT扫描分类

Int. J. E Adopt. Pub Date : 2022-08-25 DOI:10.4018/ijea.310001

Ashokkumar Palanivinayagam, V. Vinothkumar, T. Mahesh, Krishnavir Singh, Akansha Singh

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引用次数: 2

摘要

近年来，一些机器学习模型在各个领域得到了成功的应用。然而，训练好的机器学习需要大量的数据。数据是分布性的，存储在多个数据源上，集中这些数据会导致隐私和安全问题。为了解决这个问题，提出的基于联邦的方法通过交换三个局部训练的机器学习模型的参数而不损害隐私来工作。每个机器学习模型都使用电子CT扫描来提高他们的训练知识。CT扫描通过电子方式在各个医疗中心之间传输。采取适当的措施防止电子采用的数据丢失身份。为了实现参数的规范化，还随参数交换了一种新的加权方案。因此，使用更多的异构样本来训练全局模型以提高性能。实验表明，该算法的准确率达到89%，比现有的机器学习模型提高了32%。

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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Machine Learning-Based COVID-19 Classification Using E-Adopted CT Scans

In recent years, several machine learning models were successfully deployed in various fields. However, a huge quantity of data is required for training good machine learning. Data are distributivity stored across multiple sources and centralizing those data leads to privacy and security issues. To solve this problem, the proposed federated-based method works by exchanging the parameters of three locally trained machine learning models without compromising privacy. Each machine learning model uses the e-adoption of CT scans for improving their training knowledge. The CT scans are electronically transferred between various medical centers. Proper care is taken to prevent identify loss from the e-adopted data. To normalize the parameters, a novel weighting scheme is also exchanged along with the parameters. Thus, the global model is trained with more heterogeneous samples to increase performance. Based on the experiment, the proposed algorithm has obtained 89% of accuracy, which is 32% more than the existing machine learning models.

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Int. J. E Adopt.

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