<p>Simulation parameters for top panel ((a) and (b)): ; for bottom panel ((c) and (d)): ; other parameters: , , , . Disease spreading on regular networks.</p
<p>The contours show the mean set-point virus load in the population-level equilibrium. The heavy bl...
<p>The disease parameters are , . Results of simulations having initial infections chosen with proba...
Simulation outcome in relation to the rates of viral spread via contact (bi) and death rate of infec...
<p>Number of additional links with respect to all the ones that can be added, on the top panel ((a) ...
<p>In (a) and (b) (red line), (green dashed line), (blue dotted line). All simulations done with ...
<p>In (a) and (b) (red line), (green dashed line), (blue dotted line). All simulations done on re...
In the graphs of the main text (Fig 3), the rate of virus spread (bi) ranges from 0 to 5, while the ...
We analyse two models describing disease transmission and control on regular and small-world network...
<p>See <a href="http://www.plosone.org/article/info:doi/10.1371/journal.pone.0073726#pone-0073726-g0...
<p>The circles represent the epidemic threshold from our simulation, and the lines the predictions o...
We analyse two models describing disease transmission and control on regular and small-world network...
<p>Simulation parameters: , with 40 initial foci and infected neighborhood size set to cost </p
<p>Panel A shows the Sackin index as a measure of tree imbalance. Panel B shows the size of the epid...
We analyse two models describing disease transmission and control on regular and small-world network...
<p>Panel A: simulated epidemic curves (gray lines) using the observed household networks with three ...
<p>The contours show the mean set-point virus load in the population-level equilibrium. The heavy bl...
<p>The disease parameters are , . Results of simulations having initial infections chosen with proba...
Simulation outcome in relation to the rates of viral spread via contact (bi) and death rate of infec...
<p>Number of additional links with respect to all the ones that can be added, on the top panel ((a) ...
<p>In (a) and (b) (red line), (green dashed line), (blue dotted line). All simulations done with ...
<p>In (a) and (b) (red line), (green dashed line), (blue dotted line). All simulations done on re...
In the graphs of the main text (Fig 3), the rate of virus spread (bi) ranges from 0 to 5, while the ...
We analyse two models describing disease transmission and control on regular and small-world network...
<p>See <a href="http://www.plosone.org/article/info:doi/10.1371/journal.pone.0073726#pone-0073726-g0...
<p>The circles represent the epidemic threshold from our simulation, and the lines the predictions o...
We analyse two models describing disease transmission and control on regular and small-world network...
<p>Simulation parameters: , with 40 initial foci and infected neighborhood size set to cost </p
<p>Panel A shows the Sackin index as a measure of tree imbalance. Panel B shows the size of the epid...
We analyse two models describing disease transmission and control on regular and small-world network...
<p>Panel A: simulated epidemic curves (gray lines) using the observed household networks with three ...
<p>The contours show the mean set-point virus load in the population-level equilibrium. The heavy bl...
<p>The disease parameters are , . Results of simulations having initial infections chosen with proba...
Simulation outcome in relation to the rates of viral spread via contact (bi) and death rate of infec...
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