Ensemble machine learning for Monkeypox transmission time series forecasting

Article

Dada, E.G., Oyewola, D.O., Joseph, S.B., Emebo, O. and Oluwagbemi, O. 2022. Ensemble machine learning for Monkeypox transmission time series forecasting. Applied Sciences. 12 (23). https://doi.org/10.3390/app122312128
TypeArticle
TitleEnsemble machine learning for Monkeypox transmission time series forecasting
AuthorsDada, E.G., Oyewola, D.O., Joseph, S.B., Emebo, O. and Oluwagbemi, O.
Abstract

Public health is now in danger because of the current monkeypox outbreak, which has spread rapidly to more than 40 countries outside of Africa. The growing monkeypox epidemic has been classified as a “public health emergency of international concern” (PHEIC) by the World Health Organization (WHO). Infection outcomes, risk factors, clinical presentation, and transmission are all poorly understood. Computer- and machine-learning-assisted prediction and forecasting will be useful for controlling its spread. The objective of this research is to use the historical data of all reported human monkey pox cases to predict the transmission rate of the disease. This paper proposed stacking ensemble learning and machine learning techniques to forecast the rate of transmission of monkeypox. In this work, adaptive boosting regression (Adaboost), gradient boosting regression (GBOOST), random forest regression (RFR), ordinary least square regression (OLS), least absolute shrinkage selection operator regression (LASSO), and ridge regression (RIDGE) were applied for time series forecasting of monkeypox transmission. Performance metrics considered in this study are root mean square (RMSE), mean absolute error (MAE), and mean square error (MSE), which were used to evaluate the performance of the machine learning and the proposed Stacking Ensemble Learning (SEL) technique. Additionally, the monkey pox dataset was used as test data for this investigation. Experimental results revealed that SEL outperformed other machine learning approaches considered in this work with an RMSE of 33.1075; a MSE of 1096.1068; and a MAE of 22.4214. This is an indication that SEL is a better predictor than all the other models used in this study. It is hoped that this research will help government officials understand the threat of monkey pox and take the necessary mitigation actions.

Keywordsmonkeypox; machine learning; time series; forecasting; stacking ensemble learning
Sustainable Development Goals3 Good health and well-being
Middlesex University ThemeHealth & Wellbeing
PublisherMDPI AG
JournalApplied Sciences
ISSN
Electronic2076-3417
Publication dates
Online27 Nov 2022
Print01 Dec 2022
Publication process dates
Submitted24 Oct 2022
Accepted25 Nov 2022
Deposited11 Apr 2024
Output statusPublished
Publisher's version
Copyright Statement

© 2022 by the authors. Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (https://creativecommons.org/licenses/by/4.0/).

Additional information

This article belongs to the Special Issue Advances in Artificial Intelligence (AI)-Driven Data Analytics (https://www.mdpi.com/journal/applsci/special_issues/Artificial_Intel...).

Web address (URL)https://doi.org/10.3390/app122312128
Digital Object Identifier (DOI)https://doi.org/10.3390/app122312128
Web of Science identifierWOS:000912432800001
Related Output
Is supplemented byhttps://www.kaggle.com/datasets/deepcontractor/monkeypox-dataset-daily-updated
LanguageEnglish
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