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Estimation theory for growth and immigration rates in a multiplicative process

Published online by Cambridge University Press:  14 July 2016

C. C. Heyde  and
E. Seneta
C. C. Heyde
Affiliation:
Australian National University
E. Seneta
Affiliation:
Australian National University
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Abstract

This paper deals with the simple Galton-Watson process with immigration, {Xn} with offspring probability generating function (p.g.f.) F(s) and immigration p.g.f. B(s), under the basic assumption that the process is subcritical (0 < mF'(1–) < 1), and that 0 < λB'(1–) < ∞, 0 < B(0) < 1, together with various other moment assumptions as needed. Estimation theory for the rates m and λ on the basis of a single terminated realization of the process {Xn} is developed, in that (strongly) consistent estimators for both m and λ are obtained, together with associated central limit theorems in relation to m and μλ(1–m)–1 Following this, historical antecedents are analysed, and some examples of application of the estimation theory are discussed, with particular reference to the continuous-time branching process with immigration. The paper also contains a strong law for martingales; and discusses relation of the above theory to that of a first order autoregressive process.

Keywords

ESTIMATION THEORYGROWTH AND IMMIGRATION RATESMULTIPLICATIVE PROCESSESSTRONG CONSISTENCYSTRONG LAWMARTINGALESCENTRAL LIMIT THEOREMFIRST ORDER AUTOREGRESSIONPARTICLE FLUCTUATION
Type
Research Papers
Information
Journal of Applied Probability , Volume 9 , Issue 2 , June 1972 , pp. 235 - 256
Copyright
Copyright © Applied Probability Trust 1972 

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