In order to understand the transmission of a disease across a population we will have to understand not only the dynamics of contact infection but the transfer of health-care beliefs and resulting health-care behaviors across that population. This paper is a first step in that direction, focusing on the contrasting role of linkage or isolation between sub-networks in (a) contact infection and (b) belief transfer. Using both analytical tools and agent-based simulations we show that it is the structure of a network that is primary for predicting contact infection—whether the networks or sub-networks at issue are distributed ring networks or total networks (hubs, wheels, small world, random, or scale-free for example). Measured in terms of tim...
The use of online social networks has become a standard medium of social interactions and informatio...
Human societies are organized in complex webs that are constantly reshaped by a social dynamic which...
Abstract—The world is extremely complicated. When represented as a network, its intricacy gets smoot...
In order to understand the transmission of a disease across a population we will have to understand ...
Beyond belief change and meme adoption, both genetics and infection have been spoken of in terms of ...
Beyond belief change and meme adoption, both genetics and infection have been spoken of in terms of ...
In this paper we make a simple theoretical point using a practical issue as an example. The simple t...
Recent research shows an increasing interest in the interplay of social networks and infectious dise...
A fundamental challenge of modern infectious disease epidemiology is to quantify the networks of soc...
A fundamental challenge of modern infectious disease epidemiology is to quantify the networks of soc...
Research has repeatedly shown that the spread of infectious diseases is influenced by properties of ...
This paper proposes a novel model combining an epidemic dynamics and an opinion dynamics to investig...
The dynamics of a spreading disease and individual behavioral changes are entangled processes that h...
The compartmental models used to study epidemic spreading often assume the same susceptibility for a...
In this paper we make a simple theoretical point using a practical issue as an example. The simple t...
The use of online social networks has become a standard medium of social interactions and informatio...
Human societies are organized in complex webs that are constantly reshaped by a social dynamic which...
Abstract—The world is extremely complicated. When represented as a network, its intricacy gets smoot...
In order to understand the transmission of a disease across a population we will have to understand ...
Beyond belief change and meme adoption, both genetics and infection have been spoken of in terms of ...
Beyond belief change and meme adoption, both genetics and infection have been spoken of in terms of ...
In this paper we make a simple theoretical point using a practical issue as an example. The simple t...
Recent research shows an increasing interest in the interplay of social networks and infectious dise...
A fundamental challenge of modern infectious disease epidemiology is to quantify the networks of soc...
A fundamental challenge of modern infectious disease epidemiology is to quantify the networks of soc...
Research has repeatedly shown that the spread of infectious diseases is influenced by properties of ...
This paper proposes a novel model combining an epidemic dynamics and an opinion dynamics to investig...
The dynamics of a spreading disease and individual behavioral changes are entangled processes that h...
The compartmental models used to study epidemic spreading often assume the same susceptibility for a...
In this paper we make a simple theoretical point using a practical issue as an example. The simple t...
The use of online social networks has become a standard medium of social interactions and informatio...
Human societies are organized in complex webs that are constantly reshaped by a social dynamic which...
Abstract—The world is extremely complicated. When represented as a network, its intricacy gets smoot...