Fluctuation limit of branching processes with immigration and estimation of the means

Integer-valued auto-regressive (INAR) processes have been introduced to model non-negative integer-valued phenomena that evolve over time. The distribution of an INAR(p) process is essentially described by two parameters: a vector of auto-regression coefficients and a probability distribution on the non-negative integers, called an immigration or innovation distribution. Traditionally, parametric models are considered where the innovation distribution is assumed to belong to a parametric family. The paper instead considers a more realistic semiparametric INAR(p) model where there are essentially no restrictions on the innovation distribution. We provide an (semiparametrically) efficient estimator of both the auto-regression parameters and the innovation distribution.

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“…For p =1, inference in the non‐stationary INAR( p ) model, i.e. θ 1 ≈1, has been discussed in Ispány et al. (2003a, b, 2005) and Drost et al.…”

Section: Introduction and Notationmentioning

confidence: 99%

Efficient Estimation of Auto-Regression Parameters and Innovation Distributions for Semiparametric Integer-Valued AR(p) Models

Drost

Akker

Werker

2008

Journal of the Royal Statistical Society Series B: Statistical Methodology

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“…Furthermore, by using the inequality 1 − e −x ≤ x 1/8 for x ≥ 0 and the similar argument to that in [6, p.29 lines [8][9][10][11][12][13][14][15], we arrive at (3.51). The details are omitted.…”

Section: )mentioning

confidence: 62%

“…Because of the sub-critical branching laws at positive ages, a fixed (d, α, δ, γ)-branching particle system with δ > 0 will go to local extinction as time elapses. To overcome this difficulty, we borrow the idea of nearly critical branching processes (see [15,19,26]) and consider a sequence of (d, α, δ n , γ)-branching particle systems with δ n → 0 as n → ∞. We study the limit process of the re-scaled occupation time fluctuations…”

Section: Introductionmentioning

confidence: 99%

Occupation Time Fluctuations of Weakly Degenerate Branching Systems

Li¹,

Xiao²

2011

J Theor Probab

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We establish limit theorems for re-scaled occupation time fluctuations of a sequence of branching particle systems in $\R^d$ with anisotropic space motion and weakly degenerate splitting ability. In the case of large dimensions, our limit processes lead to a new class of operator-scaling Gaussian random fields with non-stationary increments. In the intermediate and critical dimensions, the limit processes have spatial structures analogous to (but more complicated than) those arising from the critical branching particle system without degeneration considered by Bojdecki et al.{\it Stochastic Process. Appl. 2006}. Due to the weakly degenerate branching ability, temporal structures of the limit processes in all three cases are different from those obtained by Bojdecki et al. .{\it Stochastic Process. Appl. 2006}.Comment: 27page

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“…More precisely, they studied weak convergence of n −1 W (n) under more general situation that there exists a random vari- Badalbaev and Zubkov [5] for the sequence of special random processes (including branching processes with immigration) proved a limit theorem which contains results of [29] and [1] as a special case. Concerning functional limit theorems for (1), we refer to Wei and Winnicki [46], Sriram [43], Li [25], [24], Ispány et al [14], [15], Khusanbaev [19], [21], Iksanov and Kabluchko [13] and see references therein. We refer to papers [18], [20], [39] where the rates of convergence in central limit theorem for (1) were studied.…”

Section: Bulletin Of Taras Shevchenkomentioning

confidence: 99%

On central limit theorems for branching processes with dependent immigration

Golomoziy

Sharipov

2020

BKNUPhM

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In this paper we consider subcritical and supercritical discrete time branching processes with generation dependent immigration. We prove central limit theorems for fluctuation of branching processes with immigration when the mean of immigrating individuals tends to infinity with the generation number and immigration process is m−dependent. The first result states on weak convergence of the fluctuation subcritical branching processes with m−dependent immigration to standard normal distribution. In this case, we do not assume that the mean and variance of immigration process are regularly varying at infinity. In contrast, in Theorem 3.2, we suppose that the mean and variance are to be regularly varying at infinity. The proofs are based on direct analytic method of probability theory.

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Fluctuation limit of branching processes with immigration and estimation of the means

Cited by 22 publications

References 17 publications

Efficient Estimation of Auto-Regression Parameters and Innovation Distributions for Semiparametric Integer-Valued AR(p) Models

Efficient Estimation of Auto-Regression Parameters and Innovation Distributions for Semiparametric Integer-Valued AR(p) Models

Occupation Time Fluctuations of Weakly Degenerate Branching Systems

On central limit theorems for branching processes with dependent immigration

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