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An SIR epidemic model for COVID-19 spread with fuzzy parameter: the case of Indonesia

Muhammad Abdy, Syafruddin Side, Suwardi Annas, Wahyuddin Nur, Wahidah Sanusi

2021Advances in Difference Equations80 citationsDOIOpen Access PDF

Abstract

The aim of this research is to construct an SIR model for COVID-19 with fuzzy parameters. The SIR model is constructed by considering the factors of vaccination, treatment, obedience in implementing health protocols, and the corona virus-load. Parameters of the infection rate, recovery rate, and death rate due to COVID-19 are constructed as a fuzzy number, and their membership functions are used in the model as fuzzy parameters. The model analysis uses the generation matrix method to obtain the basic reproduction number and the stability of the model's equilibrium points. Simulation results show that differences in corona virus-loads will also cause differences in the transmission of COVID-19. Likewise, the factors of vaccination and obedience in implementing health protocols have the same effect in slowing or stopping the transmission of COVID-19 in Indonesia.

Topics & Concepts

ObedienceOrdinary differential equationEpidemic modelFuzzy logicTransmission (telecommunications)MathematicsBasic reproduction numberCoronavirus disease 2019 (COVID-19)StatisticsComputer scienceDifferential equationDemographyMedicineArtificial intelligencePopulationMathematical analysisLawDiseasePathologyTelecommunicationsInfectious disease (medical specialty)Political scienceSociologyCOVID-19 epidemiological studiesCOVID-19 Pandemic ImpactsMathematical and Theoretical Epidemiology and Ecology Models