A rate of convergence result for the super-critical Galton-Watson process

C. C. Heyde

doi:10.2307/3211980

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Let Z0 = 1, Z1, Z2, ··· denote a super-critical Galton-Watson process whose non-degenerate offspring distribution has probability generating function where 1 < m = EZ1 < ∞. The Galton-Watson process evolves in such a way that the generating function Fn(s) of Znis the nth functional iterate of F(s). The convergence problem for Zn, when appropriately normed, has been studied by quite a number of authors; for an ultimate form see Heyde [2]. However, no information has previously been obtained on the rate of such convergence. We shall here suppose that in which case Wn = m –nZn converges almost surely to a non-degenerate random variable W as n → ∞ (Harris [1], p. 13). It is our object to establish the following result on the rate of convergence of Wn to W.

References

[1] Harris, T. E. (1963) The Theory of Branching Processes. Springer-Verlag, Berlin.Google Scholar

[2] Heyde, C. C. (1970) Extension of a result of Seneta for the super-critical Galton-Watson process. Ann. Math. Statist. 41 (in press).CrossRef Google Scholar

Crossref Citations

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Heyde, C. C. 1971. Some central limit analogues for supercritical Galton-Watson processes. Journal of Applied Probability, Vol. 8, Issue. 01, p. 52.

Iosifescu, M. and Tăutu, P. 1973. Stochastic processes and applications in biology and medicine I. Vol. 3, Issue. , p. 11.

Bingham, N. H. and Doney, R. A. 1974. Asymptotic properties of supercritical branching processes I: The Galton-Watson process. Advances in Applied Probability, Vol. 6, Issue. 4, p. 711.

Cohn, Harry and Pakes, Anthony G. 1978. A representation for the limiting random variable of a branching process with infinite mean and some related problems. Journal of Applied Probability, Vol. 15, Issue. 02, p. 225.

Vatutin, V. A. and Zubkov, A. M. 1987. Branching processes. I. Journal of Soviet Mathematics, Vol. 39, Issue. 1, p. 2431.

Korolev, V. Yu. 1991. Nonuniform estimates of the stability of the normal law under random perturbations of the scale parameter and some of their applications. Journal of Soviet Mathematics, Vol. 57, Issue. 4, p. 3270.

Quine, Malcolm P. and Szczotka, Wladystaw 1998. Asymptotic normality of processes with a branching structure. Communications in Statistics. Stochastic Models, Vol. 14, Issue. 4, p. 833.

Devroye, Luc 1998. Probabilistic Methods for Algorithmic Discrete Mathematics. Vol. 16, Issue. , p. 249.

Uwe, Rösler Valentin, Topchii and Vladimir, Vatutin 2002. Mathematics and Computer Science II. p. 441.

Heyde, C. C. 2010. Selected Works of C.C. Heyde. p. 138.

Zhenlong, Gao and Xiaoyu, Hu 2012. Limit theorems for a galton-watson process in the I.I.D. random environment. Acta Mathematica Scientia, Vol. 32, Issue. 3, p. 1193.

Gao, Zhenlong and Zhang, Yanhua 2014. A Weak Limit Theorem for Galton-Watson Processes in Varying Environments. Journal of Applied Mathematics, Vol. 2014, Issue. , p. 1.

Li, Yingqiu Liu, Quansheng Gao, Zhiqiang and Wang, Hesong 2014. Asymptotic properties of supercritical branching processes in random environments. Frontiers of Mathematics in China, Vol. 9, Issue. 4, p. 737.

Gao, Zhenlong and Zhang, Yanhua 2015. Limit Theorems for a Galton–Watson Process with Immigration in Varying Environments. Bulletin of the Malaysian Mathematical Sciences Society, Vol. 38, Issue. 4, p. 1551.

Iksanov, Alexander and Kabluchko, Zakhar 2016. A central limit theorem and a law of the iterated logarithm for the Biggins martingale of the supercritical branching random walk. Journal of Applied Probability, Vol. 53, Issue. 4, p. 1178.

Comets, Francis and Liu, Quansheng 2017. Rate of convergence for polymers in a weak disorder. Journal of Mathematical Analysis and Applications, Vol. 455, Issue. 1, p. 312.

Maillard, Pascal and Pain, Michel 2019. 1-stable fluctuations in branching Brownian motion at critical temperature I: The derivative martingale. The Annals of Probability, Vol. 47, Issue. 5,

Ren, Yan-Xia Song, Renming Sun, Zhenyao and Zhao, Jianjie 2019. Stable central limit theorems for super Ornstein-Uhlenbeck processes. Electronic Journal of Probability, Vol. 24, Issue. none,

Iksanov, Alexander Kolesko, Konrad and Meiners, Matthias 2020. Fluctuations of Biggins’ martingales at complex parameters. Annales de l'Institut Henri Poincaré, Probabilités et Statistiques, Vol. 56, Issue. 4,

Cosco, Clément and Nakajima, Shuta 2021. Gaussian fluctuations for the directed polymer partition function in dimension d≥3 and in the whole L2-region. Annales de l'Institut Henri Poincaré, Probabilités et Statistiques, Vol. 57, Issue. 2,

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A rate of convergence result for the super-critical Galton-Watson process

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