global stability

This paper aims to prezent mathematical model for Viral infection which incorporates both the cell-free and cell-to-cell transmission.  The model includes four compartments, namely, the susceptible, the infected ones, the viral load and the humoral immune response, which is activated in the host to attack the virus.  Firstly, we establish the well-posedness of our mathematical model in terms of proving the existence, positivity and boundedness of solutions.  Moreover, we determine the different equilibrium of the problem.  Also, we will study the global stability of each equilibrium.  Final

Fractional HCV infection model with adaptive immunity and treatment is  suggested and studied in this paper.  The adaptive immunity includes the CTL response and antibodies.  This model contains five ordinary differential equations.  We will start our study by proving the existence, uniqueness, and boundedness of the positive solutions.  The model has free-equilibrium points and other endemic equilibria.  By using Lyapunov functional and LaSalle's invariance principle, we have shown the global stability of these equilibrium points.  Finally, some numerical simulations will be given to valid