Stochastic Stability of Two-scale Network Dynamic Epidemic Model. Preliminary report

Divine Wanduku, Gangaram S Ladde

Research output: Contribution to conferencePresentation

Abstract

Presented at the AMS-Special Session on ” Stochastic fractional, and Hybrid Dynamic Systems with Applications”, 117th Annual Meeting of the American Mathematical Society (AMS)

The non-uniform global spread of emergent infectious diseases of humans is closely interrelated with the large-scale structure of the human population, and the human mobility process in the population structure. The mobile population becomes the vector for the disease. We present an SIRS stochastic dynamic epidemic process in a two scale structured population.The variability caused by the fluctuating environment is assumed to manifest mainly in the transmission process. We investigate the stochastic stability of scale structured mobile population, under environmental fluctuations and its impact on the emergence, propagation and resurgence of the disease. The presented results are demonstrated by numerical simulation results.
Original languageAmerican English
StatePublished - Jan 9 2011
EventAMS-Special Session on ” Stochastic fractional, and Hybrid Dynamic Systems with Applications”, 117th Annual Meeting of the American Mathematical Society (AMS) - New Orleans, LA
Duration: Jan 9 2011 → …

Conference

ConferenceAMS-Special Session on ” Stochastic fractional, and Hybrid Dynamic Systems with Applications”, 117th Annual Meeting of the American Mathematical Society (AMS)
Period01/9/11 → …

Disciplines

  • Physical Sciences and Mathematics
  • Mathematics

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