人工智能辅助SARS-CoV-2病毒检测及分形分析监测

IF 2.6 Q2 COMPUTER SCIENCE, INTERDISCIPLINARY APPLICATIONS
Mihai-Virgil Nichita, Maria-Alexandra Paun, Vladimir-Alexandru Paun, Viorel-Puiu Paun
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引用次数: 0

摘要

本文介绍了一种用于SARS-CoV-2病毒诊断和监测的人工智能模型。基于机器学习概念的人工智能模型是为了对感染新冠病毒的患者的临床评估进行识别、观察和预测而创建的。由深度学习(DL)启动的流程(人工智能子集)可以及时识别模式并向医疗保健专业人员提供自动化信息。该AI算法基于CT胸部图像的分形分析,是检测病毒和建立肺部感染程度的实用指南。利用免费公共资源提供的肺部CT图像,开发正确的人工智能算法,目的是观察/识别COVID-19病毒,是否获得连贯的医疗数据。采用盒计数法优选分形参数、分形维数和空隙度。在确认的情况下,分析后的图像用作一个程序的输入数据,该程序负责使用分形分析测量健康损害/损害的程度。在计算机断层扫描辅助下的图像扫描的支持仅仅是正确建立诊断的开始部分。一个概要化的软件框架被用来感知收集到的所有细节。使用训练好的人工智能模型,获得了98.1%的最高准确率。这种先进的程序在肺部疾病评估的复杂医疗解决方案的进展中具有重要的潜力。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
The SARS-CoV-2 Virus Detection with the Help of Artificial Intelligence (AI) and Monitoring the Disease Using Fractal Analysis
This paper introduces an AI model designed for the diagnosis and monitoring of the SARS-CoV-2 virus. The present artificial intelligence (AI) model founded on the machine learning concept was created for the identification/recognition, keeping under observation, and prediction of a patient’s clinical evaluation infected with the CoV-2 virus. The deep learning (DL)-initiated process (an AI subset) is punctually prepared to identify patterns and provide automated information to healthcare professionals. The AI algorithm is based on the fractal analysis of CT chest images, which is a practical guide to detecting the virus and establishing the degree of lung infection. CT pulmonary images, delivered by a free public source, were utilized for developing correct AI algorithms with the aim of COVID-19 virus observation/recognition, having access to coherent medical data, or not. The box-counting procedure was used with a predilection to determine the fractal parameters, the value of the fractal dimension, and the value of lacunarity. In the case of a confirmation, the analysed image is used as input data for a program responsible for measuring the degree of health impairment/damage using fractal analysis. The support of image scans with computer tomography assistance is solely the commencement part of a correctly established diagnostic. A profiled software framework has been used to perceive all the details collected. With the trained AI model, a maximum accuracy of 98.1% was obtained. This advanced procedure presents an important potential in the progress of an intricate medical solution to pulmonary disease evaluation.
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来源期刊
Computers
Computers COMPUTER SCIENCE, INTERDISCIPLINARY APPLICATIONS-
CiteScore
5.40
自引率
3.60%
发文量
153
审稿时长
11 weeks
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