Litcius/Paper detail

COVID-19 Pandemic Prediction for Hungary; A Hybrid Machine Learning Approach

Gergő Pintér, Imre Felde, Amir Mosavi, Pedram Ghamisi, Richard Gloaguen

2020Mathematics274 citationsDOIOpen Access PDF

Abstract

Several epidemiological models are being used around the world to project the number of infected individuals and the mortality rates of the COVID-19 outbreak. Advancing accurate prediction models is of utmost importance to take proper actions. Due to the lack of essential data and uncertainty, the epidemiological models have been challenged regarding the delivery of higher accuracy for long-term prediction. As an alternative to the susceptible-infected-resistant (SIR)-based models, this study proposes a hybrid machine learning approach to predict the COVID-19, and we exemplify its potential using data from Hungary. The hybrid machine learning methods of adaptive network-based fuzzy inference system (ANFIS) and multi-layered perceptron-imperialist competitive algorithm (MLP-ICA) are proposed to predict time series of infected individuals and mortality rate. The models predict that by late May, the outbreak and the total morality will drop substantially. The validation is performed for 9 days with promising results, which confirms the model accuracy. It is expected that the model maintains its accuracy as long as no significant interruption occurs. This paper provides an initial benchmarking to demonstrate the potential of machine learning for future research.

Topics & Concepts

Machine learningComputer scienceBenchmarkingArtificial intelligenceAdaptive neuro fuzzy inference systemCoronavirus disease 2019 (COVID-19)Multilayer perceptronPerceptronPredictive modellingArtificial neural networkData miningFuzzy logicFuzzy control systemMedicineMarketingInfectious disease (medical specialty)DiseasePathologyBusinessCOVID-19 epidemiological studiesCOVID-19 diagnosis using AISARS-CoV-2 and COVID-19 Research