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Almost sure convergence in Markov branching processes with infinite mean

Published online by Cambridge University Press:  14 July 2016

D. R. Grey
D. R. Grey*
Affiliation:
University of Sheffield
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Abstract

If {Zn} is a Galton–Watson branching process with infinite mean, it is shown that under certain conditions there exist constants {cn} and a function L, slowly varying at 0, such that converges almost surely to a non-degenerate random variable, whose distribution function satisfies a certain functional equation. The method is then extended to a continuous-time Markov branching process {Zt} with infinite mean, where it is shown that there is always a function φ, slowly varying at 0, such that converges almost surely to a non-degenerate random variable, and a necessary and sufficient condition is given for this convergence to be equivalent to convergence of for some constant α > 0.

Keywords

GALTON-WATSON PROCESSMARKOV BRANCHING PROCESSINFINITE MEANALMOST SURE CONVERGENCEMARTINGALESCONTINUOUS-TIME MARTINGALESSLOWLY VARYING FUNCTIONSFUNCTIONAL EQUATIONS
Type
Research Papers
Information
Journal of Applied Probability , Volume 14 , Issue 4 , December 1977 , pp. 702 - 716
Copyright
Copyright © Applied Probability Trust 1977 

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References

[1] Athreya, K. B. and Ney, P. E. (1972) Branching Processes. Springer-Verlag, Berlin.Google Scholar
[2] Bojanic, R. and Seneta, E. (1971) Slowly varying functions and asymptotic relations. J. Math. Anal. Appl. 34, 302315.Google Scholar
[3] Cohn, H. (1977) Almost sure convergence of branching processes. Z. Wahrscheinlichkeitsth. 38, 7381Google Scholar
[4] Darling, D. A. (1970) The Galton-Watson process with infinite mean. J. Appl. Prob. 7, 455456.Google Scholar
[5] Doob, J. L. (1953) Stochastic Processes. Wiley, New York.Google Scholar
[6] Grey, D. R. (1974) Some Aspects of the Theory of Branching Processes. , University of Oxford.Google Scholar
[7] Grey, D. R. (1974) Asymptotic behaviour of continuous time, continuous state-space branching processes. J. Appl. Prob. 11, 669677.Google Scholar
[8] Heyde, C. C. (1970) Extension of a result of Seneta for the supercritical Galton-Watson process. Ann. Math. Statist. 41, 739742.Google Scholar
[9] Kesten, H. and Stigum, B. P. (1966) A limit theorem for multidimensional Galton-Watson processes. Ann. Math. Statist. 37, 12111223.Google Scholar
[10] Kuczma, M. (1964) Note on Schroder's functional equation. J. Austral. Math. Soc. 4, 149151.Google Scholar
[11] Schuh, H.-J. and Barbour, A. D. (1977) On the asymptotic behaviour of branching processes with infinite mean. Adv. Appl. Prob. 9 (4) 681723.Google Scholar
[12] Seneta, E. (1969) Functional equations and the Galton-Watson process. Adv. Appl. Prob. 1, 142.Google Scholar
[13] Seneta, E. (1973) The simple branching process with infinite mean I. J. Appl. Prob. 10, 206212.Google Scholar
[14] Seneta, E. (1974) Regularly varying functions in the theory of simple branching processes. Adv. Appl. Prob. 6, 408420.Google Scholar
[15] Szekeres, G. (1958) Regular iteration of real and complex functions. Acta Math. 100, 203258.Google Scholar