Modeling diseases with latency and nonlinear incidence rates: global dynamics of a multi‐group model

Wang, Jinliang; Liu, Xianning

doi:10.1002/mma.3613

Cited by 5 publications

(2 citation statements)

References 31 publications

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“…The global stability analysis of endemic equilibrium of such models has been studied by a novel approach using the graph theory, see as in [6,7,14]. Recently, diseases with latency and relapse have been included in multi-group epidemic models in [11,[30][31][32].…”

Section: Introductionmentioning

confidence: 99%

Mathematical analysis for a multi-group SEIR epidemic model with age-dependent relapse

Wang

Guo

Kuniya

2017

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We consider a multi-group SEIR epidemic model in which recovered population relapse back to infectives depending on the time elapsed since the recovery. This leads to a hybrid system for which we can determine the basic reproduction number 0 by the spectral radius of the next generation matrix and prove the threshold behaviours. The key idea to prove the global asymptotic stability of each equilibrium is the usage of the graph-theoretic approach to construct suitable Lyapunov functionals. The necessary arguments, including the existence of an endemic equilibrium, the asymptotic smoothness of the semi-flow, the uniform persistence of the system and the existence of a global attractor are also addressed.

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Section: Introductionmentioning

confidence: 99%

Mathematical analysis for a multi-group SEIR epidemic model with age-dependent relapse

Wang

Guo

Kuniya

2017

Applicable Analysis

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“…The global dynamics of equilibria of multi-group models involving basic reproduction number and a graph-theoretic approach to the method of global Lyapunov functionals can be found in the literatures. We refer to [6,10,19,20,3,16,17,25,9,24,26,23] and references therein.…”

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confidence: 99%

Threshold dynamics of a delayed multi-group heroin epidemic model in heterogeneous populations

Liu¹,

Liu²,

Wang³

2016

DCDS-B

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The aim of this paper is to investigate the threshold dynamics of a heroin epidemic in heterogeneous populations. The model is described by a delayed multi-group model, which allows us to model interactions both withingroup and inter-group separately. Here we are able to prove the existence of heroin-spread equilibrium and the uniform persistence of the model. The proofs of main results come from suitable applications of graph-theoretic approach to the method of Lyapunov functionals and Krichhoff's matrix tree theorem. Numerical simulations are performed to support the results of the model for the case where n = 2.

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Stability of multi-group models with cross-dispersal based on graph theory

Chen

Sun

2017

Applied Mathematical Modelling

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Modeling diseases with latency and nonlinear incidence rates: global dynamics of a multi‐group model

Cited by 5 publications

References 31 publications

Mathematical analysis for a multi-group SEIR epidemic model with age-dependent relapse

Mathematical analysis for a multi-group SEIR epidemic model with age-dependent relapse

Threshold dynamics of a delayed multi-group heroin epidemic model in heterogeneous populations

Stability of multi-group models with cross-dispersal based on graph theory

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