A dynamic count process

IF 0.8 4区数学 Q3 STATISTICS & PROBABILITY

Journal of Statistical Planning and Inference Pub Date : 2024-04-26 DOI:10.1016/j.jspi.2024.106187

Namhyun Kim , Pipat Wongsa-art , Yingcun Xia

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引用次数: 0

Abstract

The current paper aims to complement the recent development of the observation-driven models of dynamic counts with a parametric-driven one for a general case, particularly discrete two parameters exponential family distributions. The current paper proposes a finite semiparametric exponential mixture of SETAR processes of the conditional mean of counts to capture the nonlinearity and complexity. Because of the intrinsic latency of the conditional mean, the general additive state-space representation of dynamic counts is firstly proposed then stationarity and geometric ergodicity are established under a mild set of conditions. We also propose to estimate the unknown parameters by using quasi maximum likelihood estimation and establishes the asymptotic properties of the quasi maximum likelihood estimators (QMLEs), particularly $\sqrt{T}$ -consistency and normality under the relatively mild set of conditions. Furthermore, the finite sample properties of the QMLEs are investigated via simulation exercises and an illustration of the proposed process is presented by applying the proposed method to the intraday transaction counts per minute of AstraZeneca stock.

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动态计数过程

本文旨在用一般情况下的参数驱动动态计数模型，特别是离散双参数指数族分布模型，来补充观测驱动动态计数模型的最新发展。本文提出了一种计数条件均值 SETAR 过程的有限半参数指数混合物，以捕捉非线性和复杂性。由于条件均值的内在延迟性，本文首先提出了动态计数的一般加法状态空间表示法，然后在一组温和的条件下建立了静态性和几何遍历性。我们还提出用准极大似然估计法来估计未知参数，并建立了准极大似然估计器（QMLEs）的渐近特性，特别是在相对温和的条件下的 T 一致性和正态性。此外，还通过模拟练习研究了 QMLE 的有限样本特性，并通过将所提方法应用于阿斯利康股票每分钟的盘中交易计数，对所提过程进行了说明。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Journal of Statistical Planning and Inference 数学-统计学与概率论

CiteScore

2.10

自引率

11.10%

发文量

审稿时长

3-6 weeks

期刊介绍： The Journal of Statistical Planning and Inference offers itself as a multifaceted and all-inclusive bridge between classical aspects of statistics and probability, and the emerging interdisciplinary aspects that have a potential of revolutionizing the subject. While we maintain our traditional strength in statistical inference, design, classical probability, and large sample methods, we also have a far more inclusive and broadened scope to keep up with the new problems that confront us as statisticians, mathematicians, and scientists. We publish high quality articles in all branches of statistics, probability, discrete mathematics, machine learning, and bioinformatics. We also especially welcome well written and up to date review articles on fundamental themes of statistics, probability, machine learning, and general biostatistics. Thoughtful letters to the editors, interesting problems in need of a solution, and short notes carrying an element of elegance or beauty are equally welcome.