کد مقاله | کد نشریه | سال انتشار | مقاله انگلیسی | نسخه تمام متن |
---|---|---|---|---|
4500308 | 1319979 | 2011 | 9 صفحه PDF | دانلود رایگان |
We introduce a dengue model (SEIR) where the human individuals are treated on an individual basis (IBM) while the mosquito population, produced by an independent model, is treated by compartments (SEI). We study the spread of epidemics by the sole action of the mosquito. Exponential, deterministic and experimental distributions for the (human) exposed period are considered in two weather scenarios, one corresponding to temperate climate and the other to tropical climate. Virus circulation, final epidemic size and duration of outbreaks are considered showing that the results present little sensitivity to the statistics followed by the exposed period provided the median of the distributions are in coincidence. Only the time between an introduced (imported) case and the appearance of the first symptomatic secondary case is sensitive to this distribution. We finally show that the IBM model introduced is precisely a realization of a compartmental model, and that at least in this case, the choice between compartmental models or IBM is only a matter of convenience.
► We introduce an IBM for dengue transmission driven by simulated vector populations.
► The influence of the distribution of the human exposed period is analyzed.
► Epidemic size does not depend on the distribution details except the median.
► The time between primary and secondary cases is sensitive to the distribution.
► The IBM model is shown to be precisely equivalent to a novel compartmental model.
Journal: Mathematical Biosciences - Volume 232, Issue 2, August 2011, Pages 87–95