Journal article
Escape from the boundary in Markov population processes
AD Barbour, K Hamza, H Kaspi, FC Klebaner
Advances in Applied Probability | APPLIED PROBABILITY TRUST | Published : 2015
Abstract
Density dependent Markov population processes in large populations of size N were shown by Kurtz (1970), (1971) to be well approximated over finite time intervals by the solution of the differential equations that describe their average drift, and to exhibit stochastic fluctuations about this deterministic solution on the scale N that can be approximated by a diffusion process. Here, motivated by an example from evolutionary biology, we are concerned with describing how such a process leaves an absorbing boundary. Initially, one or more of the populations is of size much smaller than N, and the length of time taken until all populations have sizes comparable to N then becomes infinite as N →..
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Grants
Awarded by Israel Science Foundation
Funding Acknowledgements
ADB was supported in part by the Australian Research Council (grant nos. DP120102728 and DP120102398), KH and FK by the Australian Research Council (grant no. DP120102728), and HK by the Israel Science Foundation (grant no. 764/13) and by the Milford Bohm Memorial Grant. The authors wish to warmly thank the anonymous referees of an earlier version, whose contributions have substantially improved this paper.