A mathematical model analysis of the human melioidosis transmission dynamics with an asymptomatic case
Habtamu Ayalew Engida, David Mwangi Theuri, Duncan Kioi Gathungu, John Gachohi, Haileyesus Tessema Alemneh
Abstract
is greater than unity. Sensitivity analysis is performed to illustrate the effect of the model parameters influencing on the disease dynamics. Furthermore, numerical experiments of the model are conducted to validate the theoretical findings.
Topics & Concepts
Basic reproduction numberAsymptomaticApplied mathematicsEpidemic modelDynamics (music)MathematicsTransmission (telecommunications)Stability theoryMathematical economicsMathematical modelEconometricsMathematical optimizationCalculus (dental)Computer scienceStatisticsMedicinePopulationPhysicsSurgeryEnvironmental healthNonlinear systemTelecommunicationsQuantum mechanicsDentistryAcousticsBurkholderia infections and melioidosisMathematical and Theoretical Epidemiology and Ecology Models