Modal volatility function

IF 1 4区数学 Q3 MATHEMATICS, INTERDISCIPLINARY APPLICATIONS

Journal of Time Series Analysis Pub Date : 2024-11-07 DOI:10.1111/jtsa.12790

Aman Ullah, Tao Wang

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引用次数: 0

Abstract

We in this article propose a novel non-parametric estimator for the volatility function within a broad context that encompasses nonlinear time series models as a special case. The new estimator, built on the mode value, is designed to complement existing mean volatility measures to reveal distinct data features. We demonstrate that the suggested modal volatility estimator can be obtained asymptotically as well as if the conditional mean regression function were known, assuming observations are from a strictly stationary and absolutely regular process. Under mild regularity conditions, we establish that the asymptotic distributions of the resulting estimator align with those derived from independent observations, albeit with a slower convergence rate compared to non-parametric mean regression. The theory and practice of bandwidth selection are discussed. Moreover, we put forward a variance reduction technique for the modal volatility estimator to attain asymptotic relative efficiency while maintaining the asymptotic bias unchanged. We numerically solve the modal regression model with the use of a modified modal-expectation-maximization algorithm. Monte Carlo simulations are conducted to assess the finite sample performance of the developed estimation procedure. Two real data analyses are presented to further illustrate the newly proposed model in practical applications. To potentially enhance the accuracy of the bias term, we in the end discuss the extension of the method to local exponential modal estimation. We showcase that the suggested exponential modal volatility estimator shares the same asymptotic variance as the non-parametric modal volatility estimator but may exhibit a smaller bias.

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模态波动函数

在本文中，我们提出了一种新的波动性函数的非参数估计器，它包含了广义的非线性时间序列模型作为特例。新的估计器建立在模态值的基础上，旨在补充现有的平均波动率度量，以揭示不同的数据特征。我们证明，如果条件平均回归函数已知，假设观测值来自严格平稳和绝对规则的过程，则可以渐近地获得所建议的模态波动估计量。在温和的正则性条件下，我们建立了所得估计量的渐近分布与独立观测的渐近分布一致，尽管与非参数平均回归相比收敛速度较慢。讨论了带宽选择的理论和实践。此外，我们还提出了一种模态波动估计量的方差缩减技术，以在保持渐近偏置不变的情况下获得渐近相对效率。我们使用改进的模态期望最大化算法对模态回归模型进行了数值求解。通过蒙特卡罗模拟来评估所开发的估计程序的有限样本性能。通过两个实际数据分析，进一步说明了该模型在实际应用中的应用。为了潜在地提高偏差项的准确性，我们最后讨论了将该方法推广到局部指数模态估计。我们展示了建议的指数模态波动估计量与非参数模态波动估计量具有相同的渐近方差，但可能表现出较小的偏差。

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 Time Series Analysis 数学-数学跨学科应用

CiteScore

2.00

自引率

0.00%

发文量

审稿时长

6-12 weeks

期刊介绍： During the last 30 years Time Series Analysis has become one of the most important and widely used branches of Mathematical Statistics. Its fields of application range from neurophysiology to astrophysics and it covers such well-known areas as economic forecasting, study of biological data, control systems, signal processing and communications and vibrations engineering. The Journal of Time Series Analysis started in 1980, has since become the leading journal in its field, publishing papers on both fundamental theory and applications, as well as review papers dealing with recent advances in major areas of the subject and short communications on theoretical developments. The editorial board consists of many of the world''s leading experts in Time Series Analysis.