Limit theory for moderate deviations from a unit root under weak dependence
Limit theory for moderate deviations from a unit root under weak dependence
In time-series regression theory, much attention has been given to models with autoregressive roots at unity or in the vicinity of unity. The limit theory has relied on functional laws to Brownian motion and diffusions, and weak convergence to stochastic integrals. The treatment of local to unity roots has relied exclusively on specifications of the form ρ = 1+c/n, where n is the sample size (Phillips, 1987a; Chan and Wei, 1987) or matrix versions of this form (Phillips, 1988). The theory has been particularly useful in defining power functions for unit-root tests (Phillips, 1987a) under alternatives that are immediately local to unity.
To characterize greater deviations from unity Phillips and Magdalinos (2004; hereafter simply PM) have recently investigated time series with an autoregressive root of the form ρn = 1+c/nα, where the exponent α lies in the interval (0, 1). Such roots represent moderate deviations from unity in the sense that they belong to larger neighbourhoods of one than conventional local to unity roots. The parameter α measures the radial width of the neighbourhood with smaller values of α being associated with larger neighbourhoods.
123-162
Cambridge University Press
Phillips, Peter Charles Bonest
f67573a4-fc30-484c-ad74-4bbc797d7243
Magdalinos, Tassos
ded74727-1ed4-417d-842f-00ea86a3bc31
1 February 2007
Phillips, Peter Charles Bonest
f67573a4-fc30-484c-ad74-4bbc797d7243
Magdalinos, Tassos
ded74727-1ed4-417d-842f-00ea86a3bc31
Phillips, Peter Charles Bonest and Magdalinos, Tassos
(2007)
Limit theory for moderate deviations from a unit root under weak dependence.
In,
Phillips, Garry D. A. and Tzavalis, Elias
(eds.)
The Refinement of Econometric Estimation and Test Procedures: Finite Sample and Asymptotic Analysis.
Cambridge University Press, .
(doi:10.1017/CBO9780511493157.008).
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Book Section
Abstract
In time-series regression theory, much attention has been given to models with autoregressive roots at unity or in the vicinity of unity. The limit theory has relied on functional laws to Brownian motion and diffusions, and weak convergence to stochastic integrals. The treatment of local to unity roots has relied exclusively on specifications of the form ρ = 1+c/n, where n is the sample size (Phillips, 1987a; Chan and Wei, 1987) or matrix versions of this form (Phillips, 1988). The theory has been particularly useful in defining power functions for unit-root tests (Phillips, 1987a) under alternatives that are immediately local to unity.
To characterize greater deviations from unity Phillips and Magdalinos (2004; hereafter simply PM) have recently investigated time series with an autoregressive root of the form ρn = 1+c/nα, where the exponent α lies in the interval (0, 1). Such roots represent moderate deviations from unity in the sense that they belong to larger neighbourhoods of one than conventional local to unity roots. The parameter α measures the radial width of the neighbourhood with smaller values of α being associated with larger neighbourhoods.
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Published date: 1 February 2007
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Local EPrints ID: 472219
URI: http://eprints.soton.ac.uk/id/eprint/472219
PURE UUID: cf9c553e-5e5c-4d29-9995-01562318de73
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Date deposited: 29 Nov 2022 17:50
Last modified: 16 Mar 2024 22:40
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Editor:
Garry D. A. Phillips
Editor:
Elias Tzavalis
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