In epidemic modeling, the Susceptible-Alert-Infected-Susceptible (SAIS) model extends the SIS (Susceptible-Infected-Susceptible) model. In the SAIS model, “alert” individuals observe the health status of neighbors in their contact network, and as a result, they may adopt a set of cautious behaviors to reduce their infection rate. This alertness, when incorporated in the mathematical model, increases the range of effective/relative infection rates for which initial infections die out. Built upon the SAIS model, this work investigates how information dissemination further increases this range. Information dissemination is realized through an additional network (e.g., an onl...
Standard Susceptible-Infected-Susceptible (SIS) epidemic models assume that a message spreads from t...
We study an SIS (susceptible-infected-susceptible) model of disease spread over a contact network of...
For many diseases (e.g., sexually transmitted infections, STIs), most individuals are aware of the p...
In epidemic modeling, the Susceptible-Alert-Infected-Susceptible (SAIS) model extends the ...
The spontaneous awareness behavioral responses of individuals have a significant impact on epidemic ...
The pervasiveness of the Internet and smartphones enables individuals to participate in online socia...
We study the impact of susceptible nodes’ awareness on epidemic spreading in social systems, where t...
The participation of individuals in multi-layer networks allows for feedback between network layers,...
Over the past century, mathematical epidemiology has grown to be one of the triumphs of applied math...
Contemporary distributed systems usually involve the spreading of information by means of ad-hoc dia...
One of the major issues in theoretical modeling of epidemic spreading is the development of methods ...
In social networks, individuals have relationships with their neighbor nodes (acquaintance contacts)...
Epidemiological models are used to inform health policy on issues such as target vaccination levels,...
Abstract The phenomenon of epidemic spreading in a population with a hierarchical structure of inter...
Here it’s presented a model with the aim of integrating, using the multiplex networks environment, t...
Standard Susceptible-Infected-Susceptible (SIS) epidemic models assume that a message spreads from t...
We study an SIS (susceptible-infected-susceptible) model of disease spread over a contact network of...
For many diseases (e.g., sexually transmitted infections, STIs), most individuals are aware of the p...
In epidemic modeling, the Susceptible-Alert-Infected-Susceptible (SAIS) model extends the ...
The spontaneous awareness behavioral responses of individuals have a significant impact on epidemic ...
The pervasiveness of the Internet and smartphones enables individuals to participate in online socia...
We study the impact of susceptible nodes’ awareness on epidemic spreading in social systems, where t...
The participation of individuals in multi-layer networks allows for feedback between network layers,...
Over the past century, mathematical epidemiology has grown to be one of the triumphs of applied math...
Contemporary distributed systems usually involve the spreading of information by means of ad-hoc dia...
One of the major issues in theoretical modeling of epidemic spreading is the development of methods ...
In social networks, individuals have relationships with their neighbor nodes (acquaintance contacts)...
Epidemiological models are used to inform health policy on issues such as target vaccination levels,...
Abstract The phenomenon of epidemic spreading in a population with a hierarchical structure of inter...
Here it’s presented a model with the aim of integrating, using the multiplex networks environment, t...
Standard Susceptible-Infected-Susceptible (SIS) epidemic models assume that a message spreads from t...
We study an SIS (susceptible-infected-susceptible) model of disease spread over a contact network of...
For many diseases (e.g., sexually transmitted infections, STIs), most individuals are aware of the p...