Nguyen, Chantal M. Carlson, Jean Worst-optimal difference for 75% vaccination and low time delay, expressed relative to the optimal mean final size. <p>The difference in stochastic mean final epidemic size 〈<i>E</i>〉 between worst-case and optimal protocols, expressed as the fraction of the optimal 〈<i>E</i>〉, is plotted as a function of time delay <i>τ</i> ≤ 20 days and coupling <i>f</i><sub>AB</sub> for the case of 75% vaccination, since the most significant worst-optimal differences occur for large amounts of vaccination. The remaining parameters are the same as in <a href="http://www.plosone.org/article/info:doi/10.1371/journal.pone.0152950#pone.0152950.g007" target="_blank">Fig 7</a>.</p> time delay;vaccination protocols;Stochastic SIR Model Real-time vaccination;probability distribution;tradeoffs mandate investigation;vaccine deployment;master equation;Limited vaccine;prioritizing allocation;time delays;Optimizing Real-Time Vaccine Allocation;disease dynamics;epidemic size;interaction;logistics result;SIR model 2016-04-04
    https://plos.figshare.com/articles/figure/Worst_optimal_difference_for_75_vaccination_and_low_time_delay_expressed_relative_to_the_optimal_mean_final_size_/3155356
10.1371/journal.pone.0152950.g009