A new Covid-19 diagnosis strategy using a modified KNN classifier.

IF 4.5 3区 计算机科学 Q2 COMPUTER SCIENCE, ARTIFICIAL INTELLIGENCE Neural Computing & Applications Pub Date : 2023-05-02 DOI:10.1007/s00521-023-08588-9
Asmaa H Rabie, Alaa M Mohamed, M A Abo-Elsoud, Ahmed I Saleh
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Abstract

Covid-19 is a very dangerous disease as a result of the rapid and unprecedented spread of any previous disease. It is truly a crisis that threatens the world since its first appearance in December 2019 until our time. Due to the lack of a vaccine that has proved sufficiently effective so far, the rapid and more accurate diagnosis of this disease is extremely necessary to enable the medical staff to identify infected cases and isolate them from the rest to prevent further loss of life. In this paper, Covid-19 diagnostic strategy (CDS) as a new classification strategy that consists of two basic phases: Feature selection phase (FSP) and diagnosis phase (DP) has been introduced. During the first phase called FSP, the best set of features in laboratory test findings for Covid-19 patients will be selected using enhanced gray wolf optimization (EGWO). EGWO combines both types of selection techniques called wrapper and filter. Accordingly, EGWO includes two stages called filter stage (FS) and wrapper stage (WS). While FS uses many different filter methods, WS uses a wrapper method called binary gray wolf optimization (BGWO). The second phase called DP aims to give fast and more accurate diagnosis using a hybrid diagnosis methodology (HDM) based on the selected features from FSP. In fact, the HDM consists of two phases called weighting patient phase (WP2) and diagnostic patient phase (DP2). WP2 aims to calculate the belonging degree of each patient in the testing dataset to class category using naïve Bayes (NB) as a weight method. On the other hand, K-nearest neighbor (KNN) will be used in DP2 based on the weights of patients in the testing dataset as a new training dataset to give rapid and more accurate detection. The suggested CDS outperforms other strategies according to accuracy, precision, recall (or sensitivity) and F-measure calculations that are equal to 99%, 88%, 90% and 91%, respectively, as showed in experimental results.

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一种新的新冠肺炎诊断策略,使用改进的KNN分类器。
新冠肺炎是一种非常危险的疾病,因为以前任何疾病都会迅速、前所未有地传播。自2019年12月首次出现以来,直到我们这个时代,这确实是一场威胁世界的危机。由于缺乏迄今为止证明足够有效的疫苗,对这种疾病进行快速、更准确的诊断是极其必要的,以使医务人员能够识别感染病例并将其与其他人隔离,防止进一步的生命损失。本文介绍了新冠肺炎诊断策略(CDS)作为一种新的分类策略,它由两个基本阶段组成:特征选择阶段(FSP)和诊断阶段(DP)。在名为FSP的第一阶段,将使用增强灰狼优化(EGWO)选择新冠肺炎患者实验室检测结果的最佳特征集。EGWO结合了两种类型的选择技术,称为包装器和过滤器。因此,EGWO包括两个阶段,称为过滤阶段(FS)和包装阶段(WS)。虽然FS使用许多不同的过滤方法,但WS使用一种称为二进制灰狼优化(BGWO)的包装方法。第二阶段称为DP,旨在使用基于FSP所选特征的混合诊断方法(HDM)进行快速、更准确的诊断。事实上,HDM由两个阶段组成,称为加权患者阶段(WP2)和诊断患者阶段(DP2)。WP2旨在使用朴素贝叶斯(NB)作为权重方法来计算测试数据集中每个患者对类别的归属度。另一方面,基于测试数据集中患者的权重,将在DP2中使用K近邻(KNN)作为新的训练数据集,以提供快速、更准确的检测。实验结果显示,所提出的CDS在准确度、精密度、召回率(或灵敏度)和F-测量计算方面优于其他策略,分别为99%、88%、90%和91%。
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来源期刊
Neural Computing & Applications
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.
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