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Main Authors: Djeniah, Abdelbasset, Chaouch, Mohamed, Bouchentouf, Amina Angelika
Format: Preprint
Published: 2023
Subjects:
Online Access:https://arxiv.org/abs/2310.00356
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author Djeniah, Abdelbasset
Chaouch, Mohamed
Bouchentouf, Amina Angelika
author_facet Djeniah, Abdelbasset
Chaouch, Mohamed
Bouchentouf, Amina Angelika
contents This paper explores the nonparametric estimation of the volatility component in a heteroscedastic scalar-on-function regression model, where the underlying discrete-time process is ergodic and subject to a missing-at-random mechanism. We first propose a simplified estimator for the regression and volatility operators, constructed solely from the observed data. The asymptotic properties of these estimators, including the almost sure uniform consistency rate and asymptotic distribution, are rigorously analyzed. Subsequently, the simplified estimators are employed to impute the missing data in the original process, enhancing the estimation of the regression and volatility components. The asymptotic behavior of these imputed estimators is also thoroughly investigated. A numerical comparison of the simplified and imputed estimators is presented using simulated data. Finally, the methodology is applied to real-world data to model the volatility of daily natural gas returns, utilizing intraday EU/USD exchange rate return curves sampled at a 1-hour frequency.
format Preprint
id arxiv_https___arxiv_org_abs_2310_00356
institution arXiv
publishDate 2023
record_format arxiv
spellingShingle Functional conditional volatility modeling with missing data: inference and application to energy commodities
Djeniah, Abdelbasset
Chaouch, Mohamed
Bouchentouf, Amina Angelika
Methodology
This paper explores the nonparametric estimation of the volatility component in a heteroscedastic scalar-on-function regression model, where the underlying discrete-time process is ergodic and subject to a missing-at-random mechanism. We first propose a simplified estimator for the regression and volatility operators, constructed solely from the observed data. The asymptotic properties of these estimators, including the almost sure uniform consistency rate and asymptotic distribution, are rigorously analyzed. Subsequently, the simplified estimators are employed to impute the missing data in the original process, enhancing the estimation of the regression and volatility components. The asymptotic behavior of these imputed estimators is also thoroughly investigated. A numerical comparison of the simplified and imputed estimators is presented using simulated data. Finally, the methodology is applied to real-world data to model the volatility of daily natural gas returns, utilizing intraday EU/USD exchange rate return curves sampled at a 1-hour frequency.
title Functional conditional volatility modeling with missing data: inference and application to energy commodities
topic Methodology
url https://arxiv.org/abs/2310.00356