Behavior of susceptible-infected-susceptible epidemics on heterogeneous networks with saturation
Abstract
We investigate saturation effects in susceptible-infected-susceptible (SIS) models of the spread of epidemics in heterogeneous populations. The structure of interactions in the population is represented by networks with connectivity distribution P(k),including scale-free(SF) networks with power law distributions P(k) k-γ. Considering cases where the transmission of infection between nodes depends on their connectivity, we introduce a saturation function C(k) which reduces the infection transmission rate λ across an edge going from a node with high connectivity k. A mean field approximation with the neglect of degree-degree correlation then leads to a finite threshold λc>0 for SF networks with 2<γ ≤ 3. We also find, in this approximation, the fraction of infected individuals among those with degree k for λ close to λc. We investigate via computer simulation the contact process on a heterogeneous regular lattice and compare the results with those obtained from mean field theory with and without neglect of degree-degree correlations.
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