Network epidemiology has become a vital tool in understanding the effects of high-degree vertices, geographic and demographic communities, and other inhomogeneities in social structure on the spread of disease. However, many networks derived from modern datasets are quite dense, such as mobility networks where each location has links to a large number of potential destinations. One way to reduce the computational effort of simulating epidemics on these networks is sparsification, where we select a representative subset of edges based on some measure of their importance. Recently an approach was proposed using an algorithm based on the effective resistance of the edges. We explore how effective resistance is correlated with the probability t...
We study the impact of susceptible nodes’ awareness on epidemic spreading in social systems, where t...
Edge-based network disease models, in comparison to classic compartmental epidemiological models, be...
We present a novel and effective method for controlling epidemic spreading on complex networks, espe...
Network science has increasingly become central to the field of epidemiology and our ability to resp...
Over the past century, mathematical epidemiology has grown to be one of the triumphs of applied math...
Among the diverse and important applications that networks currently have is the modeling of infecti...
Scatterplots of infection probabilities for localized (A) and dispersed (B) initial conditions for f...
The network-based cooperative information spreading is a widely existing phenomenon in the real worl...
Identifying important nodes for disease spreading is a central topic in network epidemiology. We inv...
Social influence in online social networks bears resemblance to epidemic spread in networks and has ...
Open Access funding provided thanks to the CRUE-CSIC agreement with Springer Nature. Fund ing was pr...
Identifying important nodes for disease spreading is a central topic in network epidemiology. We inv...
Contact networks provide insights on disease spread due to the duration of close proximity interacti...
Epidemiological models are used to inform health policy on issues such as target vaccination levels,...
Epidemics occur in all shapes and forms: infections propagating in our sparse sexual networks, rumou...
We study the impact of susceptible nodes’ awareness on epidemic spreading in social systems, where t...
Edge-based network disease models, in comparison to classic compartmental epidemiological models, be...
We present a novel and effective method for controlling epidemic spreading on complex networks, espe...
Network science has increasingly become central to the field of epidemiology and our ability to resp...
Over the past century, mathematical epidemiology has grown to be one of the triumphs of applied math...
Among the diverse and important applications that networks currently have is the modeling of infecti...
Scatterplots of infection probabilities for localized (A) and dispersed (B) initial conditions for f...
The network-based cooperative information spreading is a widely existing phenomenon in the real worl...
Identifying important nodes for disease spreading is a central topic in network epidemiology. We inv...
Social influence in online social networks bears resemblance to epidemic spread in networks and has ...
Open Access funding provided thanks to the CRUE-CSIC agreement with Springer Nature. Fund ing was pr...
Identifying important nodes for disease spreading is a central topic in network epidemiology. We inv...
Contact networks provide insights on disease spread due to the duration of close proximity interacti...
Epidemiological models are used to inform health policy on issues such as target vaccination levels,...
Epidemics occur in all shapes and forms: infections propagating in our sparse sexual networks, rumou...
We study the impact of susceptible nodes’ awareness on epidemic spreading in social systems, where t...
Edge-based network disease models, in comparison to classic compartmental epidemiological models, be...
We present a novel and effective method for controlling epidemic spreading on complex networks, espe...