A stochastic SIR epidemic dynamic model with distributed-time-delay, for a two-scale dynamic population is derived. The distributed time delay is the varying naturally acquired immunity period of the removal class of individuals who have recovered from the infection, and have acquired natural immunity to the disease. We investigate the stochastic asymptotic stability of the disease free equilibrium of the epidemic dynamic model, and verify the impact on the eradication of the disease
In this work, we investigate a stochastic epidemic model with relapse and distributed delay. First, ...
One of the most tools for describing the incubation period in the epidemiological dynamic models is...
A SIRS delayed epidemic dynamic model for a vector-borne disease in a two-scale network structured d...
A stochastic SIR epidemic dynamic model with distributed-time-delay, for a two-scale dynamic populat...
A stochastic SIRS epidemic dynamic model with distributed time delay for vector-borne diseases in tw...
The recent advances in modern technology in communication, transportation and several other areas of...
Presented at Disease Dynamics Seminars, College of Public Health, Georgia Southern University Link t...
The technological changes and educational expansion have created the heterogeneity in the human spec...
In this paper, by taking full consideration of distributed delay, demographics and contact heterogen...
In this paper, we establish the global asymptotic stability of an endemic equilibrium for an SIRS ep...
Public health science is increasingly focusing on understanding how COVID-19 spreads among humans. F...
This article is a total of 20 pages and contains 5 figures.In this paper, we consider a stochastic e...
When an infectious disease propagates throughout society, the incidence function may rise at first d...
Random and non-random (deterministic) dynamical systems governed by systems of delay ordinary differ...
In this article, we establish the global asymptotic stability of a disease-free equilibrium and an e...
In this work, we investigate a stochastic epidemic model with relapse and distributed delay. First, ...
One of the most tools for describing the incubation period in the epidemiological dynamic models is...
A SIRS delayed epidemic dynamic model for a vector-borne disease in a two-scale network structured d...
A stochastic SIR epidemic dynamic model with distributed-time-delay, for a two-scale dynamic populat...
A stochastic SIRS epidemic dynamic model with distributed time delay for vector-borne diseases in tw...
The recent advances in modern technology in communication, transportation and several other areas of...
Presented at Disease Dynamics Seminars, College of Public Health, Georgia Southern University Link t...
The technological changes and educational expansion have created the heterogeneity in the human spec...
In this paper, by taking full consideration of distributed delay, demographics and contact heterogen...
In this paper, we establish the global asymptotic stability of an endemic equilibrium for an SIRS ep...
Public health science is increasingly focusing on understanding how COVID-19 spreads among humans. F...
This article is a total of 20 pages and contains 5 figures.In this paper, we consider a stochastic e...
When an infectious disease propagates throughout society, the incidence function may rise at first d...
Random and non-random (deterministic) dynamical systems governed by systems of delay ordinary differ...
In this article, we establish the global asymptotic stability of a disease-free equilibrium and an e...
In this work, we investigate a stochastic epidemic model with relapse and distributed delay. First, ...
One of the most tools for describing the incubation period in the epidemiological dynamic models is...
A SIRS delayed epidemic dynamic model for a vector-borne disease in a two-scale network structured d...