Literature DB >> 34786302

Diagnosing Coronavirus Disease 2019 (COVID-19): Efficient Harris Hawks-Inspired Fuzzy K-Nearest Neighbor Prediction Methods.

Hua Ye1, Peiliang Wu2, Tianru Zhu3, Zhongxiang Xiao4, Xie Zhang1, Long Zheng1, Rongwei Zheng5, Yangjie Sun1, Weilong Zhou1, Qinlei Fu1, Xinxin Ye1, Ali Chen1, Shuang Zheng1, Ali Asghar Heidari6,7, Mingjing Wang8, Jiandong Zhu9, Huiling Chen10, Jifa Li1.   

Abstract

This study is devoted to proposing a useful intelligent prediction model to distinguish the severity of COVID-19, to provide a more fair and reasonable reference for assisting clinical diagnostic decision-making. Based on patients' necessary information, pre-existing diseases, symptoms, immune indexes, and complications, this article proposes a prediction model using the Harris hawks optimization (HHO) to optimize the Fuzzy K-nearest neighbor (FKNN), which is called HHO-FKNN. This model is utilized to distinguish the severity of COVID-19. In HHO-FKNN, the purpose of introducing HHO is to optimize the FKNN's optimal parameters and feature subsets simultaneously. Also, based on actual COVID-19 data, we conducted a comparative experiment between HHO-FKNN and several well-known machine learning algorithms, which result shows that not only the proposed HHO-FKNN can obtain better classification performance and higher stability on the four indexes but also screen out the key features that distinguish severe COVID-19 from mild COVID-19. Therefore, we can conclude that the proposed HHO-FKNN model is expected to become a useful tool for COVID-19 prediction. This work is licensed under a Creative Commons Attribution 4.0 License. For more information, see https://creativecommons.org/licenses/by/4.0/.

Entities:  

Keywords:  COVID-19; Harris hawk optimization; coronavirus; disease diagnosis; feature selection; fuzzy K-nearest neighbor

Year:  2021        PMID: 34786302      PMCID: PMC8545238          DOI: 10.1109/ACCESS.2021.3052835

Source DB:  PubMed          Journal:  IEEE Access        ISSN: 2169-3536            Impact factor:   3.367


  62 in total

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