In this chapter, we numerically show that the dynamics of the HIV system is sensitive to both the initial condition and the system parameters. These phenomena imply that the system is chaotic and exhibits a bifurcation behavior. To control the system, we propose to initiate an HIV therapy based on both the concentration of the HIV-1 viral load and the ratio of the CD4 lymphocyte population to the CD8 lymphocyte population. If the concentration of the HIV-1 viral load is higher than a threshold, then the first type of therapy will be applied. If the concentration of the HIV-1 viral load is lower than or equal to the threshold and the ratio of the CD4 lymphocyte population to the CD8 lymphocyte population is greater than another threshold, th...
International audienceAn increasing number of sophisticated control algorithms become available in t...
Of great concern today is the treatment of patients infected with the human immunodeficiency virus (...
In this paper, we formulate a dynamic mathematical model that describes the interaction of the immun...
In this paper, we numerically show that the dynamics of the HIV system is sensitive to both the init...
Abstract: It is known that HIV (Human Immunodeficiency Virus) infection, which causes AIDS after som...
HIV is one of the major causes of deaths, especially in Sub-Saharan Africa. In this paper, an in viv...
We consider a three-dimensional nonlinear control model, which describes the dynamics of HIV infecti...
Abstract: Here is presented an application of Optimal Control to a model describing the dynamics of ...
Human immunodeficiency virus infection destroys the body immune system, increases the risk of certai...
Human immunodeficiency virus infection destroys the body immune system, increases the risk of certai...
A very important scientific advance was the identification of HIV as a causative agent for AIDS. HI...
A system of ordinary differential equation, which describes the interaction of HIV and T cells in th...
The human immunodeficiency virus (HIV) infection, that causes acquired immune deficiency syndrome (A...
AbstractA system of ordinary differential equation, which describes the interaction of HIV and T cel...
In this paper, we propose to initiate the HIV therapy based on the Lyapunov exponents of the system....
International audienceAn increasing number of sophisticated control algorithms become available in t...
Of great concern today is the treatment of patients infected with the human immunodeficiency virus (...
In this paper, we formulate a dynamic mathematical model that describes the interaction of the immun...
In this paper, we numerically show that the dynamics of the HIV system is sensitive to both the init...
Abstract: It is known that HIV (Human Immunodeficiency Virus) infection, which causes AIDS after som...
HIV is one of the major causes of deaths, especially in Sub-Saharan Africa. In this paper, an in viv...
We consider a three-dimensional nonlinear control model, which describes the dynamics of HIV infecti...
Abstract: Here is presented an application of Optimal Control to a model describing the dynamics of ...
Human immunodeficiency virus infection destroys the body immune system, increases the risk of certai...
Human immunodeficiency virus infection destroys the body immune system, increases the risk of certai...
A very important scientific advance was the identification of HIV as a causative agent for AIDS. HI...
A system of ordinary differential equation, which describes the interaction of HIV and T cells in th...
The human immunodeficiency virus (HIV) infection, that causes acquired immune deficiency syndrome (A...
AbstractA system of ordinary differential equation, which describes the interaction of HIV and T cel...
In this paper, we propose to initiate the HIV therapy based on the Lyapunov exponents of the system....
International audienceAn increasing number of sophisticated control algorithms become available in t...
Of great concern today is the treatment of patients infected with the human immunodeficiency virus (...
In this paper, we formulate a dynamic mathematical model that describes the interaction of the immun...