Viral load analysis of a biodynamical model of HIV-1 with unknown equilibrium points

Author

Cheng, Chcng-Fa ; Chang, Chin-Teng

Author_Institution

Dept. of Commun. & Guidance, Nat. Taiwan Ocean Univ., Keelung, Taiwan

Volume

1

fYear

2004

fDate

2-4 Sept. 2004

Firstpage

557

Abstract

The problem of feedback control for a class of the continuous differential equation models of the interaction dynamics of HIV-1 and CD4 and CD8 lymphocytes in the human body is investigated. The stabilizing controller is analogous to require only finite and little therapeutic drug regimen. The control law is derived such that in the closed-loop system, the states that represent CD4, CD8 and viral load, are regulated to a specified equilibrium point in the state space. Furthermore, the exact information about the equilibrium may not be available, although the CD4 and CD8 populations in a human have a typical range of equilibrium values. We propose a linear adaptation law and examine the conditions under which it achieves the stabilization of the unknown equilibrium.

Keywords

biocontrol; closed loop systems; differential equations; drugs; feedback; haemodynamics; microorganisms; nonlinear dynamical systems; stability; state-space methods; CD4 lymphocytes; CD8 lymphocytes; HIV-1; biodynamical model; closed loop system; differential equation models; feedback control law; human body; interaction dynamics; linear adaptation law; nonlinear dynamical model; stabilizing controller; state space methods; therapeutic drug regimen; viral load analysis; Acquired immune deficiency syndrome; Diseases; Drugs; Feedback control; Human immunodeficiency virus; Integrated circuit modeling; Medical treatment; Oceans; Pathogens; Underwater communication;

fLanguage

English

Publisher

ieee

Conference_Titel

Control Applications, 2004. Proceedings of the 2004 IEEE International Conference on

Print_ISBN

0-7803-8633-7

Type

conf

DOI

10.1109/CCA.2004.1387270

Filename

1387270