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Autori principali: Kim, Donggyu, Oh, Minseog, Shin, Minseok
Natura: Preprint
Pubblicazione: 2022
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Accesso online:https://arxiv.org/abs/2202.08419
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author Kim, Donggyu
Oh, Minseog
Shin, Minseok
author_facet Kim, Donggyu
Oh, Minseog
Shin, Minseok
contents In this paper, we develop a novel high-dimensional time-varying coefficient estimation method, based on high-dimensional Itô diffusion processes. To account for high-dimensional time-varying coefficients, we first estimate local (or instantaneous) coefficients using a time-localized Dantzig selection scheme under a sparsity condition, which results in biased local coefficient estimators due to the regularization. To handle the bias, we propose a debiasing scheme, which provides well-performing unbiased local coefficient estimators. With the unbiased local coefficient estimators, we estimate the integrated coefficient, and to further account for the sparsity of the coefficient process, we apply thresholding schemes. We call this Thresholding dEbiased Dantzig (TED). We establish asymptotic properties of the proposed TED estimator. In the empirical analysis, TED achieves a higher average out-of-sample $R^2$ across assets than benchmark estimators in most periods. Industry-related factors play a central role in explaining asset returns. The estimated integrated coefficients show pronounced time variation associated with firm-specific events and seasonal patterns.
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id arxiv_https___arxiv_org_abs_2202_08419
institution arXiv
publishDate 2022
record_format arxiv
spellingShingle High-Dimensional Time-Varying Coefficient Estimation in Diffusion Models
Kim, Donggyu
Oh, Minseog
Shin, Minseok
Methodology
In this paper, we develop a novel high-dimensional time-varying coefficient estimation method, based on high-dimensional Itô diffusion processes. To account for high-dimensional time-varying coefficients, we first estimate local (or instantaneous) coefficients using a time-localized Dantzig selection scheme under a sparsity condition, which results in biased local coefficient estimators due to the regularization. To handle the bias, we propose a debiasing scheme, which provides well-performing unbiased local coefficient estimators. With the unbiased local coefficient estimators, we estimate the integrated coefficient, and to further account for the sparsity of the coefficient process, we apply thresholding schemes. We call this Thresholding dEbiased Dantzig (TED). We establish asymptotic properties of the proposed TED estimator. In the empirical analysis, TED achieves a higher average out-of-sample $R^2$ across assets than benchmark estimators in most periods. Industry-related factors play a central role in explaining asset returns. The estimated integrated coefficients show pronounced time variation associated with firm-specific events and seasonal patterns.
title High-Dimensional Time-Varying Coefficient Estimation in Diffusion Models
topic Methodology
url https://arxiv.org/abs/2202.08419