Arbeitspapier

Finite Sample Optimality of Score-Driven Volatility Models

We study optimality properties in finite samples for time-varying volatility models driven by the score of the predictive likelihood function. Available optimality results for this class of models suffer from two drawbacks. First, they are only asymptotically valid when evaluated at the pseudo-true parameter. Second, they only provide an optimality result `on average' and do not provide conditions under which such optimality prevails. We show in a finite sample setting that score-driven volatility models have optimality properties when they matter most. Score-driven models perform best when the data is fat-tailed and robustness is important. Moreover, they perform better when filtered volatilities differ most across alternative models, such as in periods of financial distress. These results are confirmed by an empirical application based on U.S. stock returns.

Language: Englisch

Bibliographic citation: Series: Tinbergen Institute Discussion Paper ; No. 17-111/III

Classification: Wirtschaft
Econometrics
Methodological Issues: General
Single Equation Models; Single Variables: General

Subject: Volatility models
score-driven dynamics
finite samples
Kullback-Leibler divergence
optimality

Event: Geistige Schöpfung

(who): Blasques, Francisco
Lucas, André
van Vlodrop, Andries

Event: Veröffentlichung

(who): Tinbergen Institute

(where): Amsterdam and Rotterdam

(when): 2017

Handle: http://hdl.handle.net/10419/177679

Last update: 10.03.2025, 11:41 AM CET

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Object type

Arbeitspapier

Associated

Blasques, Francisco
Lucas, André
van Vlodrop, Andries
Tinbergen Institute

Time of origin

2017

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Finite Sample Optimality of Score-Driven Volatility Models

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Other Objects (12)

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