论文信息 - Stochastic Simulations of a Spatial SIR Model

Stochastic Simulations of a Spatial SIR Model

In this paper we consider a stochastic spatial SIR (SusceptibleInfectious-Recovered) model. We assume that the population is distributed in separate cells. The disease is transmitted within the cell by direct contact, and from cell to cell through an external object (vector or vehicle) capable of carrying the disease. We simulate this model in a 10 x 10 grid of cells, and investigate the effects of the relative rates of transmission within and between cells on the predictability and progression of the disease. Results of simulation indicate that as the rate of intercellular transmission increases relative to intracellular transmission, the mean number becoming effected within each cell increases but so does the spatial variability. We also found that the time for the epidemic to run its course reaches a maximum average value at intermediate relative rates as does the spatial variability.

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