复合泊松整数值ARMA和GARCH模型的统一类

A unifying class of compound Poisson integer‐valued ARMA and GARCH models

Scandinavian Journal of Statistics · 2025
被引 0
ABS 3

中文导读

本文提出了一类广义整数值ARMA模型,统一了多种复合泊松整数值自回归和GARCH过程,并研究了其平稳性和几何遍历性,适用于传染病病例等计数时间序列分析。

Abstract

Abstract INAR (integer‐valued autoregressive) and INGARCH (integer‐valued GARCH) models are among the most commonly employed approaches for count time series modeling, but have been studied in largely distinct strands of literature. In this paper, a new class of generalized integer‐valued ARMA (GINARMA) models is introduced which unifies a large number of compound Poisson INAR and INGARCH processes. Its stochastic properties, including stationarity and geometric ergodicity, are studied. Particular attention is given to a generalization of the INAR() model which parallels the extension of the INARCH() to the INGARCH(, ) model. For inference, we consider maximum likelihood, Gaussian quasi‐likelihood, and moment‐based approaches, along with likelihood ratio tests to distinguish between selected instances of our class. Models from the proposed class have a natural interpretation as stochastic epidemic processes, which throughout the article is used to illustrate our arguments. In a case study, different instances, including both established and newly introduced models, are applied to weekly case numbers of measles and mumps in Bavaria, Germany.

时间序列分析计数数据建模计量经济学统计学