Analysis of COVID-19 in World Dataset Using Machine Learning Models

Authors

  • Sankar N Research Scholar, Department of Computer and Information Science, Faculty of Science, Annamalai University, Annamalainagar – 608 002, Tamil Nadu, India, Author
  • Manikandan S Assistant Professor, PG Department of Computer Science, Government Arts College, Chidambaram - 608 102, India Author

DOI:

https://doi.org/10.61841/v96rz251

Keywords:

Machine learning, covid -19 in world, decision tree, correlation coefficient, test statistics

Abstract

 COVID-19 had a global impact, affecting countries and regions to varying extents. While I can offer general information up to that date, it's essential to bear in mind that the situation is continually changing. For the most current and trustworthy updates, please consult authoritative sources. Machine learning, a branch of artificial intelligence, harnesses statistical methods to empower computers to acquire knowledge and render decisions without explicit programming. It operates on the principle that computers can gain insights from data, identify patterns, and exercise judgment with minimal human intervention. This paper considers covid -19 in world-related dataset like country, continent, total_confirmed, total_deaths, total_recovered, active_cases, serious_or_critical, total_cases_per_1m_population, total_deaths_per_1m_population, total_tests, total_tests_per_1m_population, population. The machine learning approaches which is used to analysis and predict the dataset using linear regression, multilayer perceptron, SMOreg, random forest, random tree, and REP tree. Numerical illustrations are provided to prove the proposed results with test statistics or accuracy parameters 

Downloads

Download data is not yet available.

References

1. Mohan, S., Abugabah, A., Kumar Singh, S., Kashif Bashir, A. and Sanzogni, L., 2022. An approach to forecast impact

of Covid‐19 using supervised machine learning model. Software: Practice and Experience, 52(4), pp.824-840.

2. Ramanathan, S. and Ramasundaram, M., 2021. Accurate computation: COVID-19 rRT-PCR positive test dataset

using stages classification through textual big data mining with machine learning. The Journal of

supercomputing, 77(7), pp.7074-7088.

3. Muhammad, L.J., Algehyne, E.A., Usman, S.S., Ahmad, A., Chakraborty, C. and Mohammed, I.A., 2021. Supervised

machine learning models for prediction of COVID-19 infection using epidemiology dataset. SN computer

science, 2(1), pp.1-13.

4. Alimadadi, A., Aryal, S., Manandhar, I., Munroe, P.B., Joe, B. and Cheng, X., 2020. Artificial intelligence and

machine learning to fight COVID-19. Physiological genomics, 52(4), pp.200-202.

5. Ballı, S., 2021. Data analysis of Covid-19 pandemic and short-term cumulative case forecasting using machine

learning time series methods. Chaos, Solitons & Fractals, 142, p.110512.

6. Rajesh, P. and Karthikeyan, M., 2017. A comparative study of data mining algorithms for decision tree approaches

using the Weka tool. Advances in Natural and Applied Sciences, 11(9), pp.230-243.

7. Ayyoub Zadeh, S.M., Ayyoubzadeh, S.M., Zahedi, H., Ahmadi, M. and Kalhori, S.R.N., 2020. Predicting COVID-

19 incidence through analysis of google trends data in Iran: data mining and deep learning pilot study. JMIR public

health and surveillance, 6(2), p.e18828.

8. Abdul Kareem, N.M., Abdulazeez, A.M., Zeebaree, D.Q. and Hasan, D.A., 2021. COVID-19 world vaccination

progress using machine learning classification algorithms. Qubahan Academic Journal, 1(2), pp.100-105.

9. Hossen, M.S. and Karmoker, D., 2020, December. Predicting the Probability of Covid-19 Recovered in South Asian

Countries Based on Healthy Diet Pattern Using a Machine Learning Approach. In 2020 2nd International Conference

on Sustainable Technologies for Industry 4.0 (STI) (pp. 1-6). IEEE.

10. Rajesh, P., Karthikeyan, M. and Arulpavai, R., 2019, December. Data mining approaches to predict the factors that

affect the groundwater level using a stochastic model. In AIP Conference Proceedings (Vol. 2177, No. 1). AIP

Publishing.

11. Rajesh, P. and Karthikeyan, M., 2019. Data mining approaches to predict the factors that affect agriculture growth

using stochastic models. International Journal of Computer Sciences and Engineering, 7(4), pp.18-23.

12. Rajesh, P., Karthikeyan, M., Santhosh Kumar, B. and Mohamed Parvees, M.Y., 2019. Comparative study of decision

tree approaches in data mining using chronic disease indicators (CDI) data. Journal of Computational and Theoretical

Nanoscience, 16(4), pp.1472-1477.

13. Kohavi, R., & Sahami, M. (1996). Error-based pruning of decision trees. In International Conference on Machine

Learning (pp. 278-286).

14. Akusok, A. (2020). What is Mean Absolute Error (MAE)? Retrieved from

https://machinelearningmastery.com/mean-absolute-error-mae-for-machine-learning/

15. S. M. Hosseini, S. M. Hosseini, and M. R. Mehrabian, “Root mean square error (RMSE): A comprehensive review,”

International Journal of Applied Mathematics and Statistics, vol. 59, no. 1, pp. 42–49, 2019.

16. Chi, W. (2020). Relative Absolute Error (RAE) – Definition and Examples. Medium.

https://medium.com/@wchi/relative-absolute-error-rae-definition-and-examples-e37a24c1b566

17. https://www.kaggle.com/code/jeonghyunjhkim/covid-19-spread-and-vaccination-progresseda/input?select=worldometer_coronavirus_summary_data.csv

Downloads

Published

30.06.2023

How to Cite

Analysis of COVID-19 in World Dataset Using Machine Learning Models. (2023). International Journal of Psychosocial Rehabilitation, 27(3), 33-43. https://doi.org/10.61841/v96rz251