Transmission of an infectious agent can be quantified from experimental data using the transient-state (TS) algorithm. The TS algorithm is based on the stochastic SIR model and provides a time-dependent probability distribution over the number of infected individuals during an epidemic, with no need for the experiment to end in final-size (e.g., where no more infections can occur). Because of numerical limitations, the application of the TS algorithm is limited to populations with only a few individuals. We investigated the error of using the easily applicable, time-independent final-size (FS) algorithm knowing that the FS situation was not reached. We conclude that the methods based on the FS algorithm: (i) underestimate R0, (ii) are liber...
<p>(A) Five stochastic simulations of Muizenberg Mathematical Fever outbreaks using transmission par...
<div><h3>Background</h3><p>Early warning systems for outbreaks of infectious diseases are an importa...
Epidemic models often reflect characteristic features of infectious spreading processes by coupled n...
Transmission of an infectious agent can be quantified from experimental data using the transient-sta...
We study the statistical inference from data on transmission obtained from one-to-one experiments, a...
Consider a Markovian SIR epidemic model in a homogeneous community. To this model we add a rate at w...
Compartmental epidemic models have been used extensively to study the historical spread of infectiou...
In this paper, we investigate three particular algorithms: a stochastic simulation algorithm (SSA), ...
An additional compartment of vaccinated individuals is considered in a SIS stochastic epidemic model...
<p>Outliers represent the results from replicates where the epidemic died out early and consequently...
Abstract. Using daily counts of newly infected individuals, Wallinga and Teunis (WT) introduced a co...
<p>On the left, infector probabilities are calculated for the true transmission genealogy in 20 inde...
<p>(A) Average number of infected nodes, 〈<i>I</i>〉, as function of time for a SIR process with Weib...
International audienceAccurate estimation of the parameters characterising infectious disease transm...
We present a stochastic epidemic model to study the effect of various preventive measures, such as u...
<p>(A) Five stochastic simulations of Muizenberg Mathematical Fever outbreaks using transmission par...
<div><h3>Background</h3><p>Early warning systems for outbreaks of infectious diseases are an importa...
Epidemic models often reflect characteristic features of infectious spreading processes by coupled n...
Transmission of an infectious agent can be quantified from experimental data using the transient-sta...
We study the statistical inference from data on transmission obtained from one-to-one experiments, a...
Consider a Markovian SIR epidemic model in a homogeneous community. To this model we add a rate at w...
Compartmental epidemic models have been used extensively to study the historical spread of infectiou...
In this paper, we investigate three particular algorithms: a stochastic simulation algorithm (SSA), ...
An additional compartment of vaccinated individuals is considered in a SIS stochastic epidemic model...
<p>Outliers represent the results from replicates where the epidemic died out early and consequently...
Abstract. Using daily counts of newly infected individuals, Wallinga and Teunis (WT) introduced a co...
<p>On the left, infector probabilities are calculated for the true transmission genealogy in 20 inde...
<p>(A) Average number of infected nodes, 〈<i>I</i>〉, as function of time for a SIR process with Weib...
International audienceAccurate estimation of the parameters characterising infectious disease transm...
We present a stochastic epidemic model to study the effect of various preventive measures, such as u...
<p>(A) Five stochastic simulations of Muizenberg Mathematical Fever outbreaks using transmission par...
<div><h3>Background</h3><p>Early warning systems for outbreaks of infectious diseases are an importa...
Epidemic models often reflect characteristic features of infectious spreading processes by coupled n...