In this paper, a discrete-time model has been proposed by applying nonstandard finite difference (NSFD) scheme to solve a delayed viral infection model with immune response and general nonlinear incidence. It is shown that the discrete model has equilibria which are exactly the same as those of the original continuous model. Using discrete-time analogue of Lyapunov functionals, the global asymptotic stability of the equilibria of the discrete model is fully determined by the basic reproduction number of the virus and immune response, R0 and R1, with no restriction on the time step size, which implies that the NSFD scheme preserves the qualitative dynamics of the corresponding continuous model
We construct a family of non-standard finite difference schemes that are dynamically consistent with...
In this paper, by applying a variation of the backward Euler method, we propose a discrete-time SIR ...
In this paper, we discussed a infinitely distributed delayed viral infection model with nonlinear im...
Abstract We study a discrete-time model with diffusion that describe the dynamics of viral infection...
This paper studies the global stability of a discrete-time pathogen dynamic model with both cell-med...
This paper studies the global stability of a class of discrete-time delayed pathogen infection model...
In the study of disease dynamics SIR (Susceptible-InfectedRecovered) models have a great importance....
This work is the numerical analysis and computational companion of the paper by Kamgang and Sallet [...
Recently, Hoang and Egbelowo (Boletin de la Sociedad Matemàtica Mexicana, 2020) proposed a nonstanda...
AbstractIn this paper, we construct a numerical method for a delayed viral infection model with gene...
We provide effective and practical guidelines on the choice of the complex denominator function of t...
Abstract In this paper, we derive a discretized multi-group epidemic model with time delay by using ...
Abstract In this paper, we establish a discrete-time analog for coupled within-host and between-host...
. In this paper we propose a nonstandard finite difference scheme for an epidemic model which consid...
The dynamical behaviors for a five-dimensional viral infection model with three delays which describ...
We construct a family of non-standard finite difference schemes that are dynamically consistent with...
In this paper, by applying a variation of the backward Euler method, we propose a discrete-time SIR ...
In this paper, we discussed a infinitely distributed delayed viral infection model with nonlinear im...
Abstract We study a discrete-time model with diffusion that describe the dynamics of viral infection...
This paper studies the global stability of a discrete-time pathogen dynamic model with both cell-med...
This paper studies the global stability of a class of discrete-time delayed pathogen infection model...
In the study of disease dynamics SIR (Susceptible-InfectedRecovered) models have a great importance....
This work is the numerical analysis and computational companion of the paper by Kamgang and Sallet [...
Recently, Hoang and Egbelowo (Boletin de la Sociedad Matemàtica Mexicana, 2020) proposed a nonstanda...
AbstractIn this paper, we construct a numerical method for a delayed viral infection model with gene...
We provide effective and practical guidelines on the choice of the complex denominator function of t...
Abstract In this paper, we derive a discretized multi-group epidemic model with time delay by using ...
Abstract In this paper, we establish a discrete-time analog for coupled within-host and between-host...
. In this paper we propose a nonstandard finite difference scheme for an epidemic model which consid...
The dynamical behaviors for a five-dimensional viral infection model with three delays which describ...
We construct a family of non-standard finite difference schemes that are dynamically consistent with...
In this paper, by applying a variation of the backward Euler method, we propose a discrete-time SIR ...
In this paper, we discussed a infinitely distributed delayed viral infection model with nonlinear im...