Author:
Ball Frank,O'Neill Philip
Abstract
This paper is concerned with a model for the spread of an epidemic in a closed, homogeneously mixing population in which new infections occur at rate f(x, y) and removals occur at rate g(x, y), where x and y are the numbers of susceptible and infective individuals, respectively, and f and g are arbitrary but specified positive real-valued functions. Sequences of such epidemics, indexed by the initial number of susceptibles n, are considered and conditions are derived under which the epidemic processes converge almost surely to a birth and death process as n tends to infinity. Thus a threshold theorem for such an epidemic model is obtained. The results are extended to models which incorporate immigration and emigration of susceptibles. The theory is illustrated by several examples of models taken from the epidemic literature. Generalizations to multipopulation epidemics are discussed briefly.
Publisher
Cambridge University Press (CUP)
Subject
Applied Mathematics,Statistics and Probability
Reference25 articles.
1. Deterministic and stochastic models for recurrent epidemics;Bartlett;Proc. 3rd Berkeley Symp. Math. Statist. Prob.,1956
2. Threshold limit theorems for some epidemic processes
3. Ball F. G. and Donnelly P. J. (1992) Branching process approximation of epidemic models. Proc. 2nd World Congress of the Bernoulli Soc., Uppsala, 1990, 144–147.
4. The outcome of a stochastic epidemic–a note on Bailey's paper;Whittle;Biometrika,1955
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