Analysis of a simple vector-host epidemic model with direct transmission.

Cai, Liming; Li, Xuezhi

Displaying similar documents to “Analysis of a simple vector-host epidemic model with direct transmission.”

Modeling schistosomiasis and HIV/AIDS codynamics.

Mushayabasa, S., Bhunu, C.P. (2011)

Computational & Mathematical Methods in Medicine

Similarity:

Subthreshold domain of bistable equilibria for a model of HIV epidemiology.

Corbett, B.D., Moghadas, S.M., Gumel, A.B. (2003)

International Journal of Mathematics and Mathematical Sciences

Similarity:

A two-dimensional model for the transmission of dengue fever disease.

Soewono, Edy, Supriatna, Asep K. (2001)

Bulletin of the Malaysian Mathematical Sciences Society. Second Series

Similarity:

On oscillatory pattern of malaria dynamics in a population with temporary immunity.

Tumwiine, J., Mugisha, J.Y.T., Luboobi, L.S. (2007)

Computational & Mathematical Methods in Medicine

Similarity:

Persistence of an SEIR model with immigration dependent on the prevalence of infection.

Wang, Wenjuan, Xin, Jingqi, Zhang, Fengqin (2010)

Discrete Dynamics in Nature and Society

Similarity:

On the dynamics of a vaccination model with multiple transmission ways

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...