An epidemic spreading through a network of regular, repeated, contacts behaves differently from one that is spread by random interactions: regular contacts serve to reduce the speed and eventual size of an epidemic. This paper uses a mathematical model to explore the difference between regular and random contacts, considering particularly the effect of clustering within the contact network. In a clustered population random contacts have a much greater impact, allowing infection to reach parts of the network that would otherwise be inaccessible. When all contacts are regular, clustering greatly reduces the spread of infection; this effect is negated by a small number of random contacts
We investigate the effects of heterogeneous and clustered contact patterns on the timescale and fina...
In social networks, individuals have relationships with their neighbor nodes (acquaintance contacts)...
International audienceMotivated by the analysis of social networks, we study a model of random netwo...
An epidemic spreading through a network of regular, repeated, contacts behaves differently from one ...
The spread of infectious diseases fundamentally depends on the pattern of contacts between individua...
It is now well appreciated that population structure can have a major impact on disease dynamics, ou...
We consider the spread of infectious disease through contact networks of Configuration Model type. W...
We consider the spread of infectious disease through contact networks of Configuration Mod...
Erik M. Volz is with University of Michigan, Joel C. Miller is with Harvard University and the Natio...
Abstract.We consider the spread of infectious disease through contact networks of Configura-tion Mod...
We consider the spread of infectious disease through contact networks of Configuration Model type. W...
There has been considerable recent interest in models for epidemics on networks describing social co...
The efficacy of contact tracing, be it between individuals (e.g. sexually transmitted diseases or se...
The thesis is split into three main chapters. Chapter 1 Micro-modelling: In this chapter, we put our...
Networks provide a mathematically rich framework to represent social contacts sufficient for the tra...
We investigate the effects of heterogeneous and clustered contact patterns on the timescale and fina...
In social networks, individuals have relationships with their neighbor nodes (acquaintance contacts)...
International audienceMotivated by the analysis of social networks, we study a model of random netwo...
An epidemic spreading through a network of regular, repeated, contacts behaves differently from one ...
The spread of infectious diseases fundamentally depends on the pattern of contacts between individua...
It is now well appreciated that population structure can have a major impact on disease dynamics, ou...
We consider the spread of infectious disease through contact networks of Configuration Model type. W...
We consider the spread of infectious disease through contact networks of Configuration Mod...
Erik M. Volz is with University of Michigan, Joel C. Miller is with Harvard University and the Natio...
Abstract.We consider the spread of infectious disease through contact networks of Configura-tion Mod...
We consider the spread of infectious disease through contact networks of Configuration Model type. W...
There has been considerable recent interest in models for epidemics on networks describing social co...
The efficacy of contact tracing, be it between individuals (e.g. sexually transmitted diseases or se...
The thesis is split into three main chapters. Chapter 1 Micro-modelling: In this chapter, we put our...
Networks provide a mathematically rich framework to represent social contacts sufficient for the tra...
We investigate the effects of heterogeneous and clustered contact patterns on the timescale and fina...
In social networks, individuals have relationships with their neighbor nodes (acquaintance contacts)...
International audienceMotivated by the analysis of social networks, we study a model of random netwo...