一般噪声下分数阶布朗运动的渐近效率

arXiv - MATH - Statistics Theory Pub Date : 2023-11-30 DOI:arxiv-2311.18669

Grégoire Szymanski, Tetsuya Takabatake

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引用次数: 0

摘要

我们研究了基于高斯移动平均过程污染的离散观测的分数阶布朗模型的局部渐近性质。我们在统一设置中考虑了低频率和高频观测的两种情况，并表明收敛速率$n^{1/2} (\nu_n\Delta_n^{-H})^{-1/(2H+2K+1)}$对于估计Hurst指数$H$是最优的，其中$\nu_n$是噪声强度，$\Delta_n$是采样频率，$K$是移动平均阶数。我们还推导了渐近有效方差，并建立了一个估计器来实现这种收敛速率和方差。这一理论分析得到了对估计过程的全面数值分析的支持，该分析特别说明了它对有限样本的有效性。

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Asymptotic Efficiency for Fractional Brownian Motion with general noise

We investigate the Local Asymptotic Property for fractional Brownian models based on discrete observations contaminated by a Gaussian moving average process. We consider both situations of low and high-frequency observations in a unified setup and we show that the convergence rate $n^{1/2} (\nu_n \Delta_n^{-H})^{-1/(2H+2K+1)}$ is optimal for estimating the Hurst index $H$, where $\nu_n$ is the noise intensity, $\Delta_n$ is the sampling frequency and $K$ is the moving average order. We also derive asymptotically efficient variances and we build an estimator achieving this convergence rate and variance. This theoretical analysis is backed up by a comprehensive numerical analysis of the estimation procedure that illustrates in particular its effectiveness for finite samples.

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arXiv - MATH - Statistics Theory

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