<p>(A) Final fraction of non-infected subjects as a function of the infective time and the infection probability (white region means almost no infection); (B) distribution of infection size (fraction of total ever infected) depending on the seed subject; (C) histogram of the distribution (B); (D) average infection size (fraction of total ever infected) vs. the number of seeds; (E) fraction of infected subjects vs time; different runs with different seeds in gray, average in black; (F) average number of infected subjects vs time, comparison between dynamic network and static network with different dynamics rules. Each point of the curve is the result of an average over 200 independent runs. In figures B–F and (notice however that figure...
The networks of sexual contacts together with temporal interactions play key roles in the spread of ...
In this paper we extend previous work deriving dynamic equations governing infectious disease spread...
<p>(a) is a plot of the total number of infected individuals against time in a simulation where the ...
<p>Watts-Strogatz, Romantic, and fully connected networks. Results for (A) time to the epidemic peak...
(a) A sample time series showing the evolution of S, I, R and V for a simulated epidemic with β = 0....
<p>The curves depict the average epidemic size as a function of the external transmission rates in t...
<p>The network has mean degree and the transmissibility of the second disease is fixed at , while t...
<p>The disease parameters are , . Results of simulations having initial infections chosen with proba...
We report a computational study of the spreading dynamics of a viral infection in a complex (scale-f...
<p>(A) 1280 patches of size 25, longest simulation run, note only three patches infected, (B) 128 pa...
Random networks were first used to model epidemic dynamics in the 1950s, but in the last decade it h...
<p>1000 SIR simulations performed on the matched contact sensors network (CSN<sup><i>m</i></sup>), t...
<p>Grey lines show 500 stochastic realizations of the individual-based model run on different random...
Contingency plans and policies associated with the deliberate release of biological agents must be d...
<p>For each network model, shown are the mean (with 95% confidence intervals) over 100 simulated net...
The networks of sexual contacts together with temporal interactions play key roles in the spread of ...
In this paper we extend previous work deriving dynamic equations governing infectious disease spread...
<p>(a) is a plot of the total number of infected individuals against time in a simulation where the ...
<p>Watts-Strogatz, Romantic, and fully connected networks. Results for (A) time to the epidemic peak...
(a) A sample time series showing the evolution of S, I, R and V for a simulated epidemic with β = 0....
<p>The curves depict the average epidemic size as a function of the external transmission rates in t...
<p>The network has mean degree and the transmissibility of the second disease is fixed at , while t...
<p>The disease parameters are , . Results of simulations having initial infections chosen with proba...
We report a computational study of the spreading dynamics of a viral infection in a complex (scale-f...
<p>(A) 1280 patches of size 25, longest simulation run, note only three patches infected, (B) 128 pa...
Random networks were first used to model epidemic dynamics in the 1950s, but in the last decade it h...
<p>1000 SIR simulations performed on the matched contact sensors network (CSN<sup><i>m</i></sup>), t...
<p>Grey lines show 500 stochastic realizations of the individual-based model run on different random...
Contingency plans and policies associated with the deliberate release of biological agents must be d...
<p>For each network model, shown are the mean (with 95% confidence intervals) over 100 simulated net...
The networks of sexual contacts together with temporal interactions play key roles in the spread of ...
In this paper we extend previous work deriving dynamic equations governing infectious disease spread...
<p>(a) is a plot of the total number of infected individuals against time in a simulation where the ...