The deterministic Kermack-McKendrick model bounds the general stochastic epidemic

Frank G. Ball; Kieran J. Sharkey; Robert R. Wilkinson

arxiv: 1602.01730 · v3 · pith:GZN5SRPUnew · submitted 2016-02-04 · 🧬 q-bio.PE · cond-mat.stat-mech· math.PR· physics.soc-ph

The deterministic Kermack-McKendrick model bounds the general stochastic epidemic

Robert R. Wilkinson , Frank G. Ball , Kieran J. Sharkey This is my paper

classification 🧬 q-bio.PE cond-mat.stat-mechmath.PRphysics.soc-ph

keywords epidemicboundexpectedgeneralmodelnumberstochasticstrict

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We prove that, for Poisson transmission and recovery processes, the classic Susceptible $\to$ Infected $\to$ Recovered (SIR) epidemic model of Kermack and McKendrick provides, for any given time $t>0$, a strict lower bound on the expected number of suscpetibles and a strict upper bound on the expected number of recoveries in the general stochastic SIR epidemic. The proof is based on the recent message passing representation of SIR epidemics applied to a complete graph.

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The deterministic Kermack-McKendrick model bounds the general stochastic epidemic

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