Individuals in human and animal populations are linked through dynamic contact networks with characteristic structural features that drive the epidemiology of directly transmissible infectious diseases. Using animal movement data from the British cattle industry as an example, this analysis explores whether disease dynamics can be altered by placing targeted restrictions on contact formation to reconfigure network topology. This was accomplished using a simple network generation algorithm that combined configuration wiring with stochastic block modelling techniques to preserve the weighted in- and out-degree of individual nodes (farms) as well as key demographic characteristics of the individual network connections (movement date, livestock...
Contact structure among livestock populations influences the transmission of infectious agents among...
Various approaches have been used to investigate how properties of farm contact networks impact on t...
We introduce a game inspired by the challenges of disease management in livestock farming and the tr...
AbstractIndividuals in human and animal populations are linked through dynamic contact networks with...
As evidenced by the 2001 foot-and-mouth disease (FMD) epidemic in the UK, this can involve transmiss...
We develop and apply analytically tractable generativemodels of livestock movements at national scal...
The availability of data on the movement of cattle within the United Kingdom has inspired a substant...
Livestock movements are an important mechanism of infectious disease transmission. Where these are w...
Contact patterns among hosts are considered as one of the most critical factors contributing to uneq...
Doctor of PhilosophyDepartment of Electrical and Computer EngineeringCaterina M. ScoglioNetworks are...
The spread of infectious diseases, between animals as well as between humans, is a topic often in fo...
Data on cattle movements within the United Kingdom have recently become available. As part of the c...
This study considered a simple SIR model for the spread of epidemics amongst holdings of a producer ...
Developing control policies for zoonotic diseases is challenging, both because of the complex spread...
Livestock disease controls are often linked to movements between farms, for example, via quarantine ...
Contact structure among livestock populations influences the transmission of infectious agents among...
Various approaches have been used to investigate how properties of farm contact networks impact on t...
We introduce a game inspired by the challenges of disease management in livestock farming and the tr...
AbstractIndividuals in human and animal populations are linked through dynamic contact networks with...
As evidenced by the 2001 foot-and-mouth disease (FMD) epidemic in the UK, this can involve transmiss...
We develop and apply analytically tractable generativemodels of livestock movements at national scal...
The availability of data on the movement of cattle within the United Kingdom has inspired a substant...
Livestock movements are an important mechanism of infectious disease transmission. Where these are w...
Contact patterns among hosts are considered as one of the most critical factors contributing to uneq...
Doctor of PhilosophyDepartment of Electrical and Computer EngineeringCaterina M. ScoglioNetworks are...
The spread of infectious diseases, between animals as well as between humans, is a topic often in fo...
Data on cattle movements within the United Kingdom have recently become available. As part of the c...
This study considered a simple SIR model for the spread of epidemics amongst holdings of a producer ...
Developing control policies for zoonotic diseases is challenging, both because of the complex spread...
Livestock disease controls are often linked to movements between farms, for example, via quarantine ...
Contact structure among livestock populations influences the transmission of infectious agents among...
Various approaches have been used to investigate how properties of farm contact networks impact on t...
We introduce a game inspired by the challenges of disease management in livestock farming and the tr...