Add to ORKGIn this work, we consider a diffusive SIR-B epidemic model with multiple transmission pathways and saturating incidence rates. We first present the explicit formula of the basic reproduction number R0. Then we show that if R0 > 1, there exists a constant c ∗ > 0 such that the system admits traveling wave solutions connecting the disease-free equilibrium and endemic equilibrium with speed c if and only if c ≥ c Since the system does not admit the comparison principle, we appeal to the standard Schauder’s fixed point theorem to prove the existence of traveling waves. Moreover, a suitable Lyapunov function is constructed to prove the upward convergence of traveling waves
This paper presents the travelling wave solution for an SIR endemic disease model with no disease re...
We study the global dynamics of a time delayed epidemic model proposed by Liu et al. (2008) [J. Liu,...
The introduction of an infective-infectious period on the geographic spread of epidemics is consider...
In this work, we consider a diffusive SIR-B epidemic model with multiple transmission pathways and s...
We consider an epidemic model with direct transmission given by a system of nonlinear partial differ...
We consider an epidemic model with direct transmission given by a system of nonlinear partial differ...
We consider an epidemic model with direct transmission given by a system of nonlinear partial differ...
We consider an epidemic model with direct transmission given by a system of nonlinear partial differ...
International audienceWe consider a general class of diffusive Kermack-McKendrick SIR epidemic model...
[[abstract]]We study the traveling wave solutions for a discrete diffusive epidemic model. The trave...
International audienceThis paper is concerned with a lattice dynamical system modeling the evolution...
[[abstract]]We study the traveling wave solutions for a discrete diffusive epidemic model. The trave...
AbstractThe theory of asymptotic speeds of spread and monotone traveling waves for monotone semiflow...
We study a diffusive SIS epidemic model with mass-action transmission mechanism and show, under appr...
We study a diffusive SIS epidemic model with mass-action transmission mechanism and show, under appr...
This paper presents the travelling wave solution for an SIR endemic disease model with no disease re...
We study the global dynamics of a time delayed epidemic model proposed by Liu et al. (2008) [J. Liu,...
The introduction of an infective-infectious period on the geographic spread of epidemics is consider...
In this work, we consider a diffusive SIR-B epidemic model with multiple transmission pathways and s...
We consider an epidemic model with direct transmission given by a system of nonlinear partial differ...
We consider an epidemic model with direct transmission given by a system of nonlinear partial differ...
We consider an epidemic model with direct transmission given by a system of nonlinear partial differ...
We consider an epidemic model with direct transmission given by a system of nonlinear partial differ...
International audienceWe consider a general class of diffusive Kermack-McKendrick SIR epidemic model...
[[abstract]]We study the traveling wave solutions for a discrete diffusive epidemic model. The trave...
International audienceThis paper is concerned with a lattice dynamical system modeling the evolution...
[[abstract]]We study the traveling wave solutions for a discrete diffusive epidemic model. The trave...
AbstractThe theory of asymptotic speeds of spread and monotone traveling waves for monotone semiflow...
We study a diffusive SIS epidemic model with mass-action transmission mechanism and show, under appr...
We study a diffusive SIS epidemic model with mass-action transmission mechanism and show, under appr...
This paper presents the travelling wave solution for an SIR endemic disease model with no disease re...
We study the global dynamics of a time delayed epidemic model proposed by Liu et al. (2008) [J. Liu,...
The introduction of an infective-infectious period on the geographic spread of epidemics is consider...