Hopf bifurcation of an HIV-1 virus model with two delays and logistic growth

Caixia Sun; Lele Li; Jianwen Jia

doi:10.1051/mmnp/2019038

Geodesic

Parcourir par

Hopf bifurcation of an HIV-1 virus model with two delays and logistic growth

Caixia Sun ¹ ; Lele Li ¹ ; Jianwen Jia ¹

¹ School of Mathematics and Computer Science, Shanxi Normal University, Linfen 041004, Shanxi, PR China.

Mathematical modelling of natural phenomena, Tome 15 (2020), article no. 16.

Voir la notice de l'article provenant de la source EDP Sciences

Résumé

The paper establish and investigate an HIV-1 virus model with logistic growth, which also has intracellular delay and humoral immunity delay. The local stability of feasible equilibria are established by analyzing the characteristic equations. The globally stability of infection-free equilibrium and immunity-inactivated equilibrium are studied using the Lyapunov functional and LaSalles invariance principle. Besides, we prove that Hopf bifurcation will occur when the humoral immune delay pass through the critical value. And the stability of the positive equilibrium and Hopf bifurcations are investigated by using the normal form theory and the center manifold theorem. Finally, we confirm the theoretical results by numerical simulations.

DOI : 10.1051/mmnp/2019038

Affiliations des auteurs :

Caixia Sun ¹ ; Lele Li ¹ ; Jianwen Jia ¹

¹ School of Mathematics and Computer Science, Shanxi Normal University, Linfen 041004, Shanxi, PR China.

@article{MMNP_2020_15_a59,
     author = {Caixia Sun and Lele Li and Jianwen Jia},
     title = {Hopf bifurcation of an {HIV-1} virus model with two delays and logistic growth},
     journal = {Mathematical modelling of natural phenomena},
     eid = {16},
     publisher = {mathdoc},
     volume = {15},
     year = {2020},
     doi = {10.1051/mmnp/2019038},
     language = {en},
     url = {https://geodesic-test.mathdoc.fr/articles/10.1051/mmnp/2019038/}
}

TY  - JOUR
AU  - Caixia Sun
AU  - Lele Li
AU  - Jianwen Jia
TI  - Hopf bifurcation of an HIV-1 virus model with two delays and logistic growth
JO  - Mathematical modelling of natural phenomena
PY  - 2020
VL  - 15
PB  - mathdoc
UR  - https://geodesic-test.mathdoc.fr/articles/10.1051/mmnp/2019038/
DO  - 10.1051/mmnp/2019038
LA  - en
ID  - MMNP_2020_15_a59
ER  -

%0 Journal Article
%A Caixia Sun
%A Lele Li
%A Jianwen Jia
%T Hopf bifurcation of an HIV-1 virus model with two delays and logistic growth
%J Mathematical modelling of natural phenomena
%D 2020
%V 15
%I mathdoc
%U https://geodesic-test.mathdoc.fr/articles/10.1051/mmnp/2019038/
%R 10.1051/mmnp/2019038
%G en
%F MMNP_2020_15_a59

Caixia Sun; Lele Li; Jianwen Jia. Hopf bifurcation of an HIV-1 virus model with two delays and logistic growth. Mathematical modelling of natural phenomena, Tome 15 (2020), article  no. 16. doi : 10.1051/mmnp/2019038. https://geodesic-test.mathdoc.fr/articles/10.1051/mmnp/2019038/

Bibliographie
Cité par

[1] E. Avila-Vales, N. Chan-Chi, G.E. Garcia-Almeida, C. Vargas-De-Leon Stability and Hopf bifurcation in a delayed viral infection model with mitosis transmission Appl. Math. Comput 2015 293 312

[2] E. Beretta, Y. Kuang Geometric stability switch criteria in delay differential systems with delay dependent parameters SIAM J. Math. Anal 2002 1144 1165

[3] A.A. Canabarro, I.M. Gl’Eria, M.L. Lyra Periodic solutions and chaos in a non-linear model for the delayed cellular immune response Physica A 2004 234 241

[4] M.S. Ciupe, B.L. Bivort, D.M. Bortz, P.W. Nelson Estimating kinetic paraneters from HIV primary infection data through the eyes of three different mathematical models Math. Biosci 2006 1 27

[5] R.V. Culshaw, S Ruan, G. Webb A mathematical model of cell-to-cell spread of HIV-1 that includes a time delay J. Math. Biol. 2003 425 444

[6] R.J. De Boer, A.S. Perelson Target cell limited and immune control models of HIV infection: a comparison J. Theoret. Biol 1998 201 214

[7] Y. Dong, G. Huang, R. Miyazaki, Y. Takeuchi Dynamics in a tumor immune system with time delays Appl. Math. Comput 2015 99 113

[8] A.M. Elaiw, N.H. Alshamrani Global stability of humoral immunity virus dynamics models with nonlinear infection rate and removal Nonlinear Anal. Real World Appl 2015 161 190

[9] J.K. Hale and S.M.V. Lunel, Introduction to Functional Differential Equations. Springer Verlag, New York (1993).

[10] B.D. Hassard, N.D. Kazarionoff and Y.H. Wan, Vol. 41 of Theory and Applications of Hopf Bifurcation. CUP Archive (1981).

[11] Z. Hu, J. Liu, H. Wang, W. Ma Analysis of the dynamics of a delayed HIV pathogenesis model J. Math. Anal. Appl 2010 461 476

[12] Z. Hu, J. Zhang, H. Wang, W. Ma, F Liao Dynamics of a delayed viral infection model with logistic growth and immune impairment Appl. Math. Model 2014 524 534

[13] X. Lai, X. Zou Modeling HIV-1 virus dynamics with both virus-to-cell infection and cell-to-cell transmission SIAM J. Appl. Math 2014 898 917

[14] X. Lai, X. Zou Modeling cell-to-cell spread of HIV-1 with logistic target cell growth J. Math. Anal. Appl 2015 563 584

[15] F. Li, J. Wang Analysis of an HIV infection model with logistic target-cell growth and cell-to-cell transmission Chaos Soliton Fract 2015 136 145

[16] X. Li, J. Wei On the zeros of a fourth degree exponential polynomial with applications to a neural network model with delays Chaos Solitons Fract 2005 519 526

[17] J.Z. Lin, R. Xu, X.H. Tian Threshold dynamics of an HIV-1 virus model with both virus-to-cell and cell-to-cell transmissions, intracellular delay, and humoral immunity Appl. Math. Comput 2017 516 530

[18] A. Murase, T. Sasaki, T. Kajiwara Stability analysis of pathogen-immune interaction dynamics J. Math. Biol 2005 247 267

[19] Y. Muroya, Y. Enastu, H. Li Global stability of a delayed HTLV-1 infection model with a class of non-linear incidence rates andCTL simmune response Appl. Math. Comput 2013 59 73

[20] K. Pawelek, S. Liu, F. Pahlevani, L. Rong A model of HIV-1 infection with two time delays: mathematical analysis and comparison with patient data Math. Biosci 2012 98 109

[21] X.Y. Song, S.L. Wang, J. Dong Stability properties and Hopf bifurcation of a delayed viral infection model with lytic immune response J. Math. Anal. Appl 2011 345 355

[22] S. Tipsri, W. Chinviriyasit The effect of time delay on the dynamics of an SEIR model with nonlinear incidence Chaos Solitons Fract 2015 153 172

[23] C. Vargas-De-Leon Stability analysis of a model for HBV infection with cure of infected cells and intracellula delay Appl. Math. Comput 2012 389 398

[24] T. Wang, Z. Hu, F. Liao, W. Ma Global stability analysis for delayed virus infection model with general incidence rate and humoral immunity Math. Comput. Simulat 2013 13 22

[25] T.L. Wang, Z.X. Hu, F.C. Liao Stability and Hopf bifurcation for a virus infection model with delayed humoral immunity response J. Math. Anal. Appl 2014 63 74

[26] J. Wang, J. Lang, X. Zou Analysis of an age structured HIV infection model with virus-to-cell infection and cell-to-cell transmission Nonlinear Anal. Real World Appl 2017 75 96

[27] K.F. Wang, W.D. Wang, H.Y. Pang, X.N. Liu Complex dynamic behavior in a viral model with delaye dimmune response Physica D 2007 197 208

[28] K.F. Wang, W.D. Wang, X.N. Liu Global stability in a viral infection model with lytic and nonlytic immune responses Comput. Math. Appl 2006 1593 1610

[29] S. Wang, D. Zou Global stability of in-host viral models with humoral immunity and intracellular delays Appl. Math. Model 2012 1313 1322

Cité par Sources :