Estimation adjusted var created by Christian Gourieroux and Jean-Michel Zakoïan

By:

Gouriéroux, Christian [author]

Contributor(s):

Zakoian, Jean-Michel [co author]

Material type: Text

TextSeries: Econometric Theory ; Volume 29, number 4Cambridge: Cambridge University Press: 2013Content type:

text

Media type:

unmediated

Carrier type:

volume

ISSN:

02664666

LOC classification:

HB139.T52 ECO

Online resources:

Click here to access online

Abstract: Standard risk measures, such as the value-at-risk (VaR), or the expected shortfall, have to be estimated, and their estimated counterparts are subject to estimation uncertainty. Replacing, in the theoretical formulas, the true parameter value by an estimator based on n observations of the profit and loss variable induces an asymptotic bias of order 1/n in the coverage probabilities. This paper shows how to correct for this bias by introducing a new estimator of the VaR, called estimation-adjusted VaR (EVaR). This adjustment allows for a joint treatment of theoretical and estimation risks, taking into account their possible dependence. The estimator is derived for a general parametric dynamic model and is particularized to stochastic drift and volatility models. The finite sample properties of the EVaR estimator are studied by simulation and an empirical study of the S&P index is proposed.

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Holdings
Item type	Current library	Call number	Vol info	Copy number	Status	Notes	Date due	Barcode
Journal Article	Main Library - Special Collections	HB139.T52 ECO (Browse shelf(Opens below))	Vol. 29, no.4 (pages 735-770)	SP17541	Not for loan	For In House Use Only

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Previous	HB139.T52 ECO Econometric Theory /	HB139.T52 ECO Nonparametric inference for conditional quantiles of time series	HB139.T52 ECO Multistep prediction of panel vector autoregressive processes	HB139.T52 ECO Estimation adjusted var	HB139.T52 ECO Estimation of and inference about the expected shortfall for time series with infinite variance	HB139.T52 ECO Fast convergence rates in estimating large volatility matrices using high frequency financial data	HB139.T52 ECO Semiparametric structural models of binary response: shape restrictions and partial identification	Next

Standard risk measures, such as the value-at-risk (VaR), or the expected shortfall, have to be estimated, and their estimated counterparts are subject to estimation uncertainty. Replacing, in the theoretical formulas, the true parameter value by an estimator based on n observations of the profit and loss variable induces an asymptotic bias of order 1/n in the coverage probabilities. This paper shows how to correct for this bias by introducing a new estimator of the VaR, called estimation-adjusted VaR (EVaR). This adjustment allows for a joint treatment of theoretical and estimation risks, taking into account their possible dependence. The estimator is derived for a general parametric dynamic model and is particularized to stochastic drift and volatility models. The finite sample properties of the EVaR estimator are studied by simulation and an empirical study of the S&P index is proposed.

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