This technical report describes a dynamic causal model of the spread of coronavirus through a population. The model is based upon ensemble or population dynamics that generate outcomes, like new cases and deaths over time. The purpose of this model is to quantify the uncertainty that attends predictions of relevant outcomes. By assuming suitable conditional dependencies, one can model the effects of interventions (e.g., social distancing) and differences among populations (e.g., herd immunity) to predict what might happen in different circumstances. Technically, this model leverages state-of-the-art variational (Bayesian) model inversion and comparison procedures, originally developed to characterise the responses of neuronal ensembles to p...
In this paper, we study the effectiveness of the modelling approach on the pandemic due to the sprea...
Against the current COVID-19 pandemic, governments worldwide have devised a variety of non-pharmaceu...
The dynamics of epidemics depend on how people's behavior changes during an outbreak. At the beginni...
This technical report describes a dynamic causal model of the spread of coronavirus through a popula...
This technical report describes the dynamic causal modelling of mitigated epidemiological outcomes d...
The evolution of the COVID-19 pandemic is described through a time-dependent stochastic dynamic mode...
Human behaviour was tipped as the mainstay in the control of further SARS-CoV-2 (COVID-19) spread, e...
This paper proposes a dynamic model to describe and forecast the dynamics of the coronavirus disease...
This paper proposes a dynamic model to describe and forecast the dynamics of the coronavirus disease...
Abstract Epidemiological models range in complexity from relatively simple statistical models that m...
Numerous prediction models of SARS-CoV-2 pandemic were proposed in the past. Unknown parameters of t...
Mathematical modelling performs a vital part in estimating and controlling the recent outbreak of co...
An interesting inference drawn by some COVID-19 epidemiological models is that there exists a propor...
The mathematical model reported here describes the dynamics of the ongoing coronavirus disease 2019 ...
Coronavirus COVID-19 spreads through the population mostly based on social contact. To gauge the pot...
In this paper, we study the effectiveness of the modelling approach on the pandemic due to the sprea...
Against the current COVID-19 pandemic, governments worldwide have devised a variety of non-pharmaceu...
The dynamics of epidemics depend on how people's behavior changes during an outbreak. At the beginni...
This technical report describes a dynamic causal model of the spread of coronavirus through a popula...
This technical report describes the dynamic causal modelling of mitigated epidemiological outcomes d...
The evolution of the COVID-19 pandemic is described through a time-dependent stochastic dynamic mode...
Human behaviour was tipped as the mainstay in the control of further SARS-CoV-2 (COVID-19) spread, e...
This paper proposes a dynamic model to describe and forecast the dynamics of the coronavirus disease...
This paper proposes a dynamic model to describe and forecast the dynamics of the coronavirus disease...
Abstract Epidemiological models range in complexity from relatively simple statistical models that m...
Numerous prediction models of SARS-CoV-2 pandemic were proposed in the past. Unknown parameters of t...
Mathematical modelling performs a vital part in estimating and controlling the recent outbreak of co...
An interesting inference drawn by some COVID-19 epidemiological models is that there exists a propor...
The mathematical model reported here describes the dynamics of the ongoing coronavirus disease 2019 ...
Coronavirus COVID-19 spreads through the population mostly based on social contact. To gauge the pot...
In this paper, we study the effectiveness of the modelling approach on the pandemic due to the sprea...
Against the current COVID-19 pandemic, governments worldwide have devised a variety of non-pharmaceu...
The dynamics of epidemics depend on how people's behavior changes during an outbreak. At the beginni...