Traditionally, the spread of infectious diseases in human populations has been modelled with static parameters. These parameters, however, can change when individuals change their behaviour. If these changes are themselves influenced by the disease dynamics, there is scope for mechanistic models of behaviour to improve our understanding of this interaction. Here, we present challenges in modelling changes in behaviour relating to disease dynamics, specifically: how to incorporate behavioural changes in models of infectious disease dynamics, how to inform measurement of relevant behaviour to parameterise such models, and how to determine the impact of behavioural changes on observed disease dynamics
Uncoordinated human behavioral responses triggered by risk perception can alter the evolution of an ...
Motivated by epidemics such as COVID-19, we study the spread of a contagious disease when behavior r...
The last decade saw the advent of increasingly realistic epidemic models that leverage on the availa...
AbstractTraditionally, the spread of infectious diseases in human populations has been modelled with...
Traditionally, the spread of infectious diseases in human populations has been modelled with static ...
Human behaviour plays an important role in the spread of infectious diseases, and understanding the ...
Human behaviour plays an important role in the spread of infectious diseases, and understanding the ...
During epidemics, people will often modify their behaviour patterns over time in response to changes...
Infectious diseases are subject to much media coverage. When an individual considers vaccination and...
2This volume summarizes the state-of-the-art in the fast growing research area of modeling the influ...
This paper analyses an SIRS-type model for infectious diseases with account for behavioural changes ...
Mathematical models represent a powerful tool for investigating the dynamics of human infection dise...
When a disease breaks out in a human population, changes in behavior in response to the outbreak can...
AbstractWe formulate an in silico model of pathogen avoidance mechanism and investigate its impact o...
In this chapter, a modeling framework that explicitly accounts for human adaptations induced by risk...
Uncoordinated human behavioral responses triggered by risk perception can alter the evolution of an ...
Motivated by epidemics such as COVID-19, we study the spread of a contagious disease when behavior r...
The last decade saw the advent of increasingly realistic epidemic models that leverage on the availa...
AbstractTraditionally, the spread of infectious diseases in human populations has been modelled with...
Traditionally, the spread of infectious diseases in human populations has been modelled with static ...
Human behaviour plays an important role in the spread of infectious diseases, and understanding the ...
Human behaviour plays an important role in the spread of infectious diseases, and understanding the ...
During epidemics, people will often modify their behaviour patterns over time in response to changes...
Infectious diseases are subject to much media coverage. When an individual considers vaccination and...
2This volume summarizes the state-of-the-art in the fast growing research area of modeling the influ...
This paper analyses an SIRS-type model for infectious diseases with account for behavioural changes ...
Mathematical models represent a powerful tool for investigating the dynamics of human infection dise...
When a disease breaks out in a human population, changes in behavior in response to the outbreak can...
AbstractWe formulate an in silico model of pathogen avoidance mechanism and investigate its impact o...
In this chapter, a modeling framework that explicitly accounts for human adaptations induced by risk...
Uncoordinated human behavioral responses triggered by risk perception can alter the evolution of an ...
Motivated by epidemics such as COVID-19, we study the spread of a contagious disease when behavior r...
The last decade saw the advent of increasingly realistic epidemic models that leverage on the availa...