@srmist.edu.in
Assistant Professor, Mathematics
SRM Institute of Science and Technology
Mathematical Models & Mathematical Biology
Scopus Publications
R. Ramesh and G. A. Joseph
SCIK Publishing Corporation
,
Salah Boulaaras, Ramesh Ramalingam, and Arul Joseph Gnanaprakasam
Springer Science and Business Media LLC
S. Balamuralitharan and R. Ramesh
AIP Publishing
This paper deals the HBV infections using Homotopy Perturbation Method, Using Mathematical modeling for the three compartments such as T, I and V Where T denotes the target uninfected cells, I denotes infected cells, V denotes Hepatitis B virus in the dynamic models also Considering that β is the rate of target uninfected cells gets infected, and this happens when the target uninfected cells and virus interact with each other. Assuming that δ is the death rate of infected liver cells, and α is the production rate of virus. c is the death of virus. The new target cells are produced at the constant rate s and the target cells dies before getting infected at the rate dT and it’s the natural death, α, β , δ, c, s & d these six parameters estimations through the viral dynamics V, Homotopy Perturbation Method is used to derive the approximate solutions of the Nonlinear Differential Equation systems, The numerical solutions carried out from the MATLAB programme.