Hopf bifurcation for a model of HIV infection of T cells with virus released delay.
Yang, Jun-Yuan, Wang, Xiao-Yan, Li, Xue-Zhi (2011)
Discrete Dynamics in Nature and Society
Similarity:
Yang, Jun-Yuan, Wang, Xiao-Yan, Li, Xue-Zhi (2011)
Discrete Dynamics in Nature and Society
Similarity:
Liu, Rongsong, Wu, Jianhong, Zhu, Huaiping (2007)
Computational & Mathematical Methods in Medicine
Similarity:
Mushayabasa, S., Bhunu, C.P. (2011)
Computational & Mathematical Methods in Medicine
Similarity:
Yang, Junyuan, Wang, Xiaoyan, Zhang, Fengqin (2008)
Discrete Dynamics in Nature and Society
Similarity:
Yuan, Sanling, Li, Bo (2009)
Discrete Dynamics in Nature and Society
Similarity:
Müller, Johannes, Tjardes, Thorsten (2003)
Journal of Theoretical Medicine
Similarity:
Chiyaka, C., Garira, W., Dube, S. (2008)
Computational & Mathematical Methods in Medicine
Similarity:
Shu Liao, Weiming Yang (2013)
International Journal of Applied Mathematics and Computer Science
Similarity:
In this paper, we present a vaccination model with multiple transmission ways and derive the control reproduction number. The stability analysis of both the disease-free and endemic equilibria is carried out, and bifurcation theory is applied to explore a variety of dynamics of this model. In addition, we present numerical simulations to verify the model predictions. Mathematical results suggest that vaccination is helpful for disease control by decreasing the control reproduction number...
Chiyaka, Edward T., Magombedze, Gesham, Mutimbu, Lawrence (2010)
Computational & Mathematical Methods in Medicine
Similarity:
Tian, Xiaohong, Xu, Rui (2010)
Discrete Dynamics in Nature and Society
Similarity:
Hadley, Scott A., Forbes, Lawrence K. (2009)
Journal of Applied Mathematics
Similarity:
Tumwiine, J., Mugisha, J.Y.T., Luboobi, L.S. (2007)
Computational & Mathematical Methods in Medicine
Similarity: