ECM algorithm for estimating vector ARMA model with variance gamma distribution and possible unbounded density

IF 0.8 4区数学 Q3 STATISTICS & PROBABILITY

Australian & New Zealand Journal of Statistics Pub Date : 2021-10-18 DOI:10.1111/anzs.12340

Thanakorn Nitithumbundit, Jennifer S.K. Chan

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引用次数: 0

Abstract

The simultaneous analysis of several financial time series is salient in portfolio setting and risk management. This paper proposes a novel alternating expectation conditional maximisation (AECM) algorithm to estimate the vector autoregressive moving average (VARMA) model with variance gamma (VG) error distribution in the multivariate skewed setting. We explain why the VARMA-VG model is suitable for high-frequency returns (HFRs) because VG distribution provides thick tails to capture the high kurtosis in the data and unbounded central density further captures the majority of near-zero HFRs. The distribution can also be expressed in normal-mean-variance mixtures to facilitate model implementation using the Bayesian or expectation maximisation (EM) approach. We adopt the EM approach to avoid the time-consuming Markov chain Monto Carlo sampling and solve the unbounded density problem in the classical maximum likelihood estimation. We conduct extensive simulation studies to evaluate the accuracy of the proposed AECM estimator and apply the models to analyse the dependency between two HFR series from the time zones that only differ by one hour.

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用ECM算法估计具有方差分布和可能无界密度的向量ARMA模型

同时分析多个金融时间序列在投资组合设置和风险管理中具有重要意义。本文提出了一种新的交替期望条件最大化(AECM)算法，用于估计多元偏态设置下具有方差伽玛(VG)误差分布的向量自回归移动平均(VARMA)模型。我们解释了为什么VARMA-VG模型适用于高频回报(HFRs)，因为VG分布提供了厚尾来捕获数据中的高峰度，无界中心密度进一步捕获了大多数接近零的HFRs。分布也可以用正态-均值-方差混合表示，以方便使用贝叶斯或期望最大化(EM)方法实现模型。采用EM方法避免了耗时的马尔可夫链蒙特卡罗采样，解决了经典极大似然估计中的无界密度问题。我们进行了广泛的模拟研究，以评估所提出的AECM估计器的准确性，并应用模型来分析两个仅相差一小时的时区HFR序列之间的相关性。

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

Australian & New Zealand Journal of Statistics 数学-统计学与概率论

CiteScore

1.30

自引率

9.10%

发文量

审稿时长

>12 weeks

期刊介绍： The Australian & New Zealand Journal of Statistics is an international journal managed jointly by the Statistical Society of Australia and the New Zealand Statistical Association. Its purpose is to report significant and novel contributions in statistics, ranging across articles on statistical theory, methodology, applications and computing. The journal has a particular focus on statistical techniques that can be readily applied to real-world problems, and on application papers with an Australasian emphasis. Outstanding articles submitted to the journal may be selected as Discussion Papers, to be read at a meeting of either the Statistical Society of Australia or the New Zealand Statistical Association. The main body of the journal is divided into three sections. The Theory and Methods Section publishes papers containing original contributions to the theory and methodology of statistics, econometrics and probability, and seeks papers motivated by a real problem and which demonstrate the proposed theory or methodology in that situation. There is a strong preference for papers motivated by, and illustrated with, real data. The Applications Section publishes papers demonstrating applications of statistical techniques to problems faced by users of statistics in the sciences, government and industry. A particular focus is the application of newly developed statistical methodology to real data and the demonstration of better use of established statistical methodology in an area of application. It seeks to aid teachers of statistics by placing statistical methods in context. The Statistical Computing Section publishes papers containing new algorithms, code snippets, or software descriptions (for open source software only) which enhance the field through the application of computing. Preference is given to papers featuring publically available code and/or data, and to those motivated by statistical methods for practical problems.