Tail-robust estimation of factor-adjusted vector autoregressive models for high-dimensional time series

Dylan Dijk; Haeran Cho

doi:10.48550/arXiv.2509.22235

Tail-robust estimation of factor-adjusted vector autoregressive models for high-dimensional time series

Dylan Dijk, Haeran Cho

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Abstract

We study the problem of modelling high-dimensional, heavy-tailed time series data via a factor-adjusted vector autoregressive (VAR) model, which simultaneously accounts for pervasive co-movements of the variables by a handful of factors, as well as their remaining interconnectedness using a sparse VAR model. To accommodate heavy tails, we adopt an element-wise truncation step followed by a two-stage estimation procedure for estimating the latent factors and the VAR parameter matrices. Assuming the existence of the $(2 + 2\epsilon)$-th moment only for some $\epsilon \in (0, 1)$, we derive the rates of estimation that make explicit the effect of heavy tails through $\epsilon$. Simulation studies and an application in macroeconomics demonstrate the competitive performance of the proposed estimators.

Original language	English
Publisher	arXiv.org
DOIs	https://doi.org/10.48550/arXiv.2509.22235
Publication status	Submitted - 26 Sept 2025

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stat.ME

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abstract = "We study the problem of modelling high-dimensional, heavy-tailed time series data via a factor-adjusted vector autoregressive (VAR) model, which simultaneously accounts for pervasive co-movements of the variables by a handful of factors, as well as their remaining interconnectedness using a sparse VAR model. To accommodate heavy tails, we adopt an element-wise truncation step followed by a two-stage estimation procedure for estimating the latent factors and the VAR parameter matrices. Assuming the existence of the \$(2 + 2\textbackslash{}epsilon)\$-th moment only for some \$\textbackslash{}epsilon \textbackslash{}in (0, 1)\$, we derive the rates of estimation that make explicit the effect of heavy tails through \$\textbackslash{}epsilon\$. Simulation studies and an application in macroeconomics demonstrate the competitive performance of the proposed estimators.",

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N2 - We study the problem of modelling high-dimensional, heavy-tailed time series data via a factor-adjusted vector autoregressive (VAR) model, which simultaneously accounts for pervasive co-movements of the variables by a handful of factors, as well as their remaining interconnectedness using a sparse VAR model. To accommodate heavy tails, we adopt an element-wise truncation step followed by a two-stage estimation procedure for estimating the latent factors and the VAR parameter matrices. Assuming the existence of the $(2 + 2\epsilon)$-th moment only for some $\epsilon \in (0, 1)$, we derive the rates of estimation that make explicit the effect of heavy tails through $\epsilon$. Simulation studies and an application in macroeconomics demonstrate the competitive performance of the proposed estimators.

AB - We study the problem of modelling high-dimensional, heavy-tailed time series data via a factor-adjusted vector autoregressive (VAR) model, which simultaneously accounts for pervasive co-movements of the variables by a handful of factors, as well as their remaining interconnectedness using a sparse VAR model. To accommodate heavy tails, we adopt an element-wise truncation step followed by a two-stage estimation procedure for estimating the latent factors and the VAR parameter matrices. Assuming the existence of the $(2 + 2\epsilon)$-th moment only for some $\epsilon \in (0, 1)$, we derive the rates of estimation that make explicit the effect of heavy tails through $\epsilon$. Simulation studies and an application in macroeconomics demonstrate the competitive performance of the proposed estimators.

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PB - arXiv.org

ER -

Tail-robust estimation of factor-adjusted vector autoregressive models for high-dimensional time series

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