Res-CovNet: an internet of medical health things driven COVID-19 framework using transfer learning.

IF 4.5 3区计算机科学 Q2 COMPUTER SCIENCE, ARTIFICIAL INTELLIGENCE

Neural Computing & Applications Pub Date : 2023-01-01 Epub Date: 2021-06-09 DOI:10.1007/s00521-021-06171-8

Mangena Venu Madhavan, Aditya Khamparia, Deepak Gupta, Sagar Pande, Prayag Tiwari, M Shamim Hossain

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引用次数: 27

Abstract

Major countries are globally facing difficult situations due to this pandemic disease, COVID-19. There are high chances of getting false positives and false negatives identifying the COVID-19 symptoms through existing medical practices such as PCR (polymerase chain reaction) and RT-PCR (reverse transcription-polymerase chain reaction). It might lead to a community spread of the disease. The alternative of these tests can be CT (Computer Tomography) imaging or X-rays of the lungs to identify the patient with COVID-19 symptoms more accurately. Furthermore, by using feasible and usable technology to automate the identification of COVID-19, the facilities can be improved. This notion became the basic framework, Res-CovNet, of the implemented methodology, a hybrid methodology to bring different platforms into a single platform. This basic framework is incorporated into IoMT based framework, a web-based service to identify and classify various forms of pneumonia or COVID-19 utilizing chest X-ray images. For the front end, the.NET framework along with C# language was utilized, MongoDB was utilized for the storage aspect, Res-CovNet was utilized for the processing aspect. Deep learning combined with the notion forms a comprehensive implementation of the framework, Res-CovNet, to classify the COVID-19 affected patients from pneumonia-affected patients as both lung imaging looks similar to the naked eye. The implemented framework, Res-CovNet, developed with the technique, transfer learning in which ResNet-50 used as a pre-trained model and then extended with classification layers. The work implemented using the data of X-ray images collected from the various trustable sources that include cases such as normal, bacterial pneumonia, viral pneumonia, and COVID-19, with the overall size of the data is about 5856. The accuracy of the model implemented is about 98.4% in identifying COVID-19 against the normal cases. The accuracy of the model is about 96.2% in the case of identifying COVID-19 against all other cases, as mentioned.

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Res-CovNet：一个使用迁移学习的医疗健康事物驱动的新冠肺炎框架互联网。

由于新冠肺炎这一流行病，全球主要国家正面临困难局面。通过现有的医学实践，如PCR（聚合酶链式反应）和RT-PCR（逆转录聚合酶链式反应。这可能会导致疾病在社区传播。这些测试的替代方法可以是CT（计算机断层扫描）成像或肺部X光检查，以更准确地识别有新冠肺炎症状的患者。此外，通过使用可行和可用的技术自动识别新冠肺炎，可以改进设施。这一概念成为实施方法的基本框架Res-CovNet，这是一种将不同平台整合到单个平台中的混合方法。这一基本框架被纳入基于IoMT的框架，这是一项基于网络的服务，用于利用胸部X射线图像识别和分类各种形式的肺炎或新冠肺炎。对于前端。NET框架和C#语言一起使用，MongoDB用于存储方面，Res-CovNet用于处理方面。深度学习与这一概念相结合，形成了Res-CovNet框架的全面实施，将新冠肺炎影响的患者与肺炎影响的患者进行分类，因为两种肺部成像看起来都与肉眼相似。实现的框架Res-CovNet是用迁移学习技术开发的，其中ResNet-50用作预先训练的模型，然后用分类层进行扩展。这项工作是利用从各种可靠来源收集的X射线图像数据进行的，这些来源包括正常病例、细菌性肺炎、病毒性肺炎和新冠肺炎，数据的总体规模约为5856。所实施的模型在识别新冠肺炎与正常病例方面的准确率约为98.4%。如前所述，在针对所有其他病例识别新冠肺炎的情况下，该模型的准确率约为96.2%。

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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来源期刊

Neural Computing & Applications 工程技术-计算机：人工智能

CiteScore

11.40

自引率

8.30%

发文量

1280

审稿时长

6.9 months

期刊介绍： Neural Computing & Applications is an international journal which publishes original research and other information in the field of practical applications of neural computing and related techniques such as genetic algorithms, fuzzy logic and neuro-fuzzy systems. All items relevant to building practical systems are within its scope, including but not limited to: -adaptive computing- algorithms- applicable neural networks theory- applied statistics- architectures- artificial intelligence- benchmarks- case histories of innovative applications- fuzzy logic- genetic algorithms- hardware implementations- hybrid intelligent systems- intelligent agents- intelligent control systems- intelligent diagnostics- intelligent forecasting- machine learning- neural networks- neuro-fuzzy systems- pattern recognition- performance measures- self-learning systems- software simulations- supervised and unsupervised learning methods- system engineering and integration. Featured contributions fall into several categories: Original Articles, Review Articles, Book Reviews and Announcements.