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Asymptotic theory for moderate deviations from the unit boundary in quantile autoregressive time series

Asymptotic theory for moderate deviations from the unit boundary in quantile autoregressive time series
Asymptotic theory for moderate deviations from the unit boundary in quantile autoregressive time series
We establish the asymptotic theory in quantile autoregression when the model parameter is specified with respect to moderate deviations from the unit boundary of the form (1 + c / k) with a convergence sequence that diverges at a rate slower than the sample size n. Then, extending the framework proposed by Phillips and Magdalinos (2007), we consider the limit theory for the near-stationary and the near-explosive cases when the model is estimated with a conditional quantile specification function and model parameters are quantile-dependent. Additionally, a Bahadur-type representation and limiting distributions based on the M-estimators of the model parameters are derived. Specifically, we show that the serial correlation coefficient converges in distribution to a ratio of two independent random variables. Monte Carlo simulations illustrate the finite-sample performance of the estimation procedure under investigation.
econ.EM
Katsouris, Christis
c00ef5df-703d-4372-bfd4-a2df0d664f95
Katsouris, Christis
c00ef5df-703d-4372-bfd4-a2df0d664f95

Katsouris, Christis (2022) Asymptotic theory for moderate deviations from the unit boundary in quantile autoregressive time series 26pp.

Record type: Monograph (Working Paper)

Abstract

We establish the asymptotic theory in quantile autoregression when the model parameter is specified with respect to moderate deviations from the unit boundary of the form (1 + c / k) with a convergence sequence that diverges at a rate slower than the sample size n. Then, extending the framework proposed by Phillips and Magdalinos (2007), we consider the limit theory for the near-stationary and the near-explosive cases when the model is estimated with a conditional quantile specification function and model parameters are quantile-dependent. Additionally, a Bahadur-type representation and limiting distributions based on the M-estimators of the model parameters are derived. Specifically, we show that the serial correlation coefficient converges in distribution to a ratio of two independent random variables. Monte Carlo simulations illustrate the finite-sample performance of the estimation procedure under investigation.

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2204.02073v1 - Author's Original
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Published date: 5 April 2022
Keywords: econ.EM

Identifiers

Local EPrints ID: 471749
URI: http://eprints.soton.ac.uk/id/eprint/471749
PURE UUID: 41891ca9-14ed-475a-a0b3-b0e7f550f813
ORCID for Christis Katsouris: ORCID iD orcid.org/0000-0002-8869-6641

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Date deposited: 17 Nov 2022 17:42
Last modified: 17 Mar 2024 03:49

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Author: Christis Katsouris ORCID iD

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