AbstractThis paper deals with a mathematical model that describe a genetic regulatory system. The model has a delay which affects the dynamics of the system. We investigate the stability switches when the delay varies, and show that Hopf bifurcations may occur within certain range of the model parameters. By combining the normal form method with the center manifold theorem, we are able to determine the direction of the bifurcation and the stability of the bifurcated periodic solutions. Finally, some numerical simulations are carried out to support the analytic results
We consider a coupled, logistic predator–prey system with delay. Mainly, by choosing the delay tim...
Epidemic models are normally used to describe the spread of infectious diseases. In this paper, we w...
A SI-type ecoepidemiological model that incorporates reproduction delay of predator is studied. Cons...
AbstractThis paper deals with a mathematical model that describe a genetic regulatory system. The mo...
We consider a model for gene expression with one or two time delays and diffusion. The local stabili...
AbstractIn this paper, we investigate a model for gene expression, unlike the models mathematically ...
In this paper, we investigate a model for gene expression, unlike the models mathematically analyzed...
The stability and Hopf bifurcation of gene expression models with a mechanism of delayed state feedb...
A predator-prey system with disease in the predator is investigated, where the discrete delay τ is r...
This paper mainly studies the stability and Hopf bifurcation criteria of hub-based genetic regulator...
Abstract. We consider a model of genetic network that has been previously presented by J. Lewis. Thi...
We study stability and Hopf bifurcation analysis of a model that refers to the competition between t...
AbstractThis work represents Hopf bifurcation analysis of a general non-linear differential equation...
The dynamics of the model for tumor-immune system competition with negative im-mune response and wit...
A SIS epidemic model proposed by Cooke et al. [2] is investigated. Using time delay as the control p...
We consider a coupled, logistic predator–prey system with delay. Mainly, by choosing the delay tim...
Epidemic models are normally used to describe the spread of infectious diseases. In this paper, we w...
A SI-type ecoepidemiological model that incorporates reproduction delay of predator is studied. Cons...
AbstractThis paper deals with a mathematical model that describe a genetic regulatory system. The mo...
We consider a model for gene expression with one or two time delays and diffusion. The local stabili...
AbstractIn this paper, we investigate a model for gene expression, unlike the models mathematically ...
In this paper, we investigate a model for gene expression, unlike the models mathematically analyzed...
The stability and Hopf bifurcation of gene expression models with a mechanism of delayed state feedb...
A predator-prey system with disease in the predator is investigated, where the discrete delay τ is r...
This paper mainly studies the stability and Hopf bifurcation criteria of hub-based genetic regulator...
Abstract. We consider a model of genetic network that has been previously presented by J. Lewis. Thi...
We study stability and Hopf bifurcation analysis of a model that refers to the competition between t...
AbstractThis work represents Hopf bifurcation analysis of a general non-linear differential equation...
The dynamics of the model for tumor-immune system competition with negative im-mune response and wit...
A SIS epidemic model proposed by Cooke et al. [2] is investigated. Using time delay as the control p...
We consider a coupled, logistic predator–prey system with delay. Mainly, by choosing the delay tim...
Epidemic models are normally used to describe the spread of infectious diseases. In this paper, we w...
A SI-type ecoepidemiological model that incorporates reproduction delay of predator is studied. Cons...