<p>A scatter plot showing the percentage number of times each individual was infected during the 1500 influenza outbreak simulations. During the conditions: random vaccination (black); vaccination by between-ness (blue); and, vaccination by degree (pink).</p
<p>Each plot is a comparison of the outcome of the runs starting with a particular immunity level to...
a) The simulation is executed without any control measure, and the number of infected individuals is...
Simulation pairs varied with respect to the proportion of vaccine efficacy due to protection from in...
The left hand plot displays the probability of successful (immunity-boosting) exposure for a simulat...
<p>Dashed lines represent the median number of cases in simulations with vaccination, and the solid ...
<p>(A) Five stochastic simulations of Muizenberg Mathematical Fever outbreaks using transmission par...
<p>Each plot shows the median (diamonds) and 95% predictive interval for the proportion of cases ave...
<p>Individual activities are explicitly described and infectious transmissions are stochastically ev...
For each immunization type and b ∈ {1%, 2%, 5%, 10%, 15%}, 5000 simulations on the encounter network...
Simulation pairs varied with respect to the proportion of vaccine efficacy due to protection from in...
<p>The black dashed line is the confirmed cases which could be regarded as the baseline (i.e. no int...
<p>NA: the epidemics did not manifest an obvious peak due to the low transmissibility and long incub...
(A) The best-fit parameters achieved an excellent fit to the observed cases, with a mean absolute er...
<p>Left: 5% initially infected, chosen randomly from the population. Right: 5% initially infected, c...
<p>(A) The distribution of the influenza isolates for each month, including influenza B (light blue ...
<p>Each plot is a comparison of the outcome of the runs starting with a particular immunity level to...
a) The simulation is executed without any control measure, and the number of infected individuals is...
Simulation pairs varied with respect to the proportion of vaccine efficacy due to protection from in...
The left hand plot displays the probability of successful (immunity-boosting) exposure for a simulat...
<p>Dashed lines represent the median number of cases in simulations with vaccination, and the solid ...
<p>(A) Five stochastic simulations of Muizenberg Mathematical Fever outbreaks using transmission par...
<p>Each plot shows the median (diamonds) and 95% predictive interval for the proportion of cases ave...
<p>Individual activities are explicitly described and infectious transmissions are stochastically ev...
For each immunization type and b ∈ {1%, 2%, 5%, 10%, 15%}, 5000 simulations on the encounter network...
Simulation pairs varied with respect to the proportion of vaccine efficacy due to protection from in...
<p>The black dashed line is the confirmed cases which could be regarded as the baseline (i.e. no int...
<p>NA: the epidemics did not manifest an obvious peak due to the low transmissibility and long incub...
(A) The best-fit parameters achieved an excellent fit to the observed cases, with a mean absolute er...
<p>Left: 5% initially infected, chosen randomly from the population. Right: 5% initially infected, c...
<p>(A) The distribution of the influenza isolates for each month, including influenza B (light blue ...
<p>Each plot is a comparison of the outcome of the runs starting with a particular immunity level to...
a) The simulation is executed without any control measure, and the number of infected individuals is...
Simulation pairs varied with respect to the proportion of vaccine efficacy due to protection from in...
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