We investigate the role of migration patterns on the spread of epidemics in complex networks. We enhance the SIS-diffusion model on metapopulations to a nonlinear diffusion. Specifically, individuals move randomly over the network but at a rate depending on the population of the departure patch. In the absence of epidemics, the migration-driven equilibrium is described by quantifying the total number of individuals living in heavily or lightly populated areas. Our analytical approach reveals that strengthening the migration from populous areas contains the infection at the early stage of the epidemic. Moreover, depending on the exponent of the nonlinear diffusion rate, epidemic outbreaks do not always occur in the most populated areas as on...
Advances in the fields of mathematics, physics, epidemiology, and computing have led to an incredibl...
The correct description of reaction-diffusion phenomena requires a detailed knowledge of the conta...
We present a study of the continuous-time equations governing the dynamics of a susceptible infected...
We investigate a model for spatial epidemics explicitly taking into account bidirectional movements ...
We investigate a model for spatial epidemics explicitly taking into account bidirectional movements ...
Open Access funding provided thanks to the CRUE-CSIC agreement with Springer Nature. Fund ing was pr...
We propose a theoretical framework for the study of spreading processes in structured metapopulation...
Abstract. Human mobility is a key factor in spatial disease dynamics and related phenomena. In compu...
Abstract We review and introduce a generalized reaction-diffusion approach to epidemic spreading in ...
In this paper, the process of the infectious diseases among cities is studied in metapopulation netw...
The metapopulation framework is adopted in a wide array of disciplines to describe systems of well s...
The networked structure of contacts shapes the spreading of epidemic processes. Recent advances on n...
In this paper, we study the dynamical behaviour of an epidemic on complex networks with population m...
The metapopulation dynamical model with information spreading in SIS epidemic diffusion model is pre...
In this paper, the study of epidemic spreading of mobile individuals on networks focuses o...
Advances in the fields of mathematics, physics, epidemiology, and computing have led to an incredibl...
The correct description of reaction-diffusion phenomena requires a detailed knowledge of the conta...
We present a study of the continuous-time equations governing the dynamics of a susceptible infected...
We investigate a model for spatial epidemics explicitly taking into account bidirectional movements ...
We investigate a model for spatial epidemics explicitly taking into account bidirectional movements ...
Open Access funding provided thanks to the CRUE-CSIC agreement with Springer Nature. Fund ing was pr...
We propose a theoretical framework for the study of spreading processes in structured metapopulation...
Abstract. Human mobility is a key factor in spatial disease dynamics and related phenomena. In compu...
Abstract We review and introduce a generalized reaction-diffusion approach to epidemic spreading in ...
In this paper, the process of the infectious diseases among cities is studied in metapopulation netw...
The metapopulation framework is adopted in a wide array of disciplines to describe systems of well s...
The networked structure of contacts shapes the spreading of epidemic processes. Recent advances on n...
In this paper, we study the dynamical behaviour of an epidemic on complex networks with population m...
The metapopulation dynamical model with information spreading in SIS epidemic diffusion model is pre...
In this paper, the study of epidemic spreading of mobile individuals on networks focuses o...
Advances in the fields of mathematics, physics, epidemiology, and computing have led to an incredibl...
The correct description of reaction-diffusion phenomena requires a detailed knowledge of the conta...
We present a study of the continuous-time equations governing the dynamics of a susceptible infected...