Prediction of COVID 19 using marching learning techniques

M. Vedaraj; K. Saravanan; V. Prasanna Srinivasan; K. Balachander; A. K. Jaithunbi

doi:10.53730/ijhs.v6nS3.8315

Authors

M. Vedaraj Assistant professor, Department of CSE, R.M.D. Engineering College
K. Saravanan Associate professor, Department of IT, R.M.D. Engineering College
V. Prasanna Srinivasan Associate professor, Department of IT, R.M.D. Engineering College
K. Balachander Associate professor, Department of CSE, Velammal Institute of Technology
A. K. Jaithunbi Assistant professor, Department of CSE, R.M.D. Engineering College

Keywords:

COVID, SARS, artificial neural network (ann), dataset

Abstract

Coronavirus disease (COVID-19) is an infectious disease caused by the SARS-CoV-2 virus. Most people infected with the virus will experience mild to moderate respiratory illness and recover without requiring special treatment. However, some will become seriously ill and require medical attention. Older people and those with underlying medical conditions like cardiovascular disease, diabetes, chronic respiratory disease, or cancer are more likely to develop serious illness. Supervised machine learning models for COVID-19 infection were developed in this work with learning algorithms which include support vector machine, naive Bayes, random Forest, GNB using epidemiology labeled dataset for positive and negative COVID-19 cases of Mexico. The correlation coefficient analysis between various dependent and independent features was carried out to determine a strength relationship between each dependent feature and independent feature of the dataset prior to developing the models. The 80% of the training dataset were used for training the models while the remaining 20% were used for testing the models. The result of the performance evaluation of the models showed that GNB prediction model has the highest accuracy of 98% compared to other existing ML techniques.

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