Luca Benzoni scite author profile

This paper extends the class of stochastic volatility diffusions for asset returns to encompass Poisson jumps of time-varying intensity. We find that any reasonably descriptive continuous-time model for equity-index returns must allow for discrete jumps as well as stochastic volatility with a pronounced negative relationship between return and volatility innovations. We also find that the dominant empirical characteristics of the return process appear to be priced by the option market. Our analysis indicates a general correspondence between the evidence extracted from daily equity-index returns and the stylized features of the corresponding options market prices.MUCH ASSET AND DERIVATIVE PRICING THEORY is based on diffusion models for primary securities. However, prescriptions for practical applications derived from these models typically produce disappointing results. A possible explanation could be that analytic formulas for pricing and hedging are available for only a limited set of continuous-time representations for asset returns and risk-free discount rates. It has become increasingly evident that such "classical" models fail to account adequately for the underlying dynamic evolution of asset prices and interest rates. Not surprisingly, the inadequacy of these specifications also shows up in bond and derivatives pricing, where the standard representations falter systematically. For example, the BlackScholes pricing formula, although widely used by practitioners, is well known to produce pronounced and persistent biases in the pricing of options. Devi-* Torben G. an anonymous referee; and seminar participants at Atlanta FED,

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Portfolio Choice Over the Life-Cycle when the Stock and Labor Markets are Cointegrated

Benzoni

2006

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An Empirical Investigation of Continuous-Time Equity Return Models

Andersen¹,

Benzoni²,

Lund³

2001

148

195

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, for helpful comments and suggestions. Also, we would like to thank the MSI center at the University of Minnesota for providing computing resources. Of course, all errors remain our sole responsibility. Previous versions of this paper were circulated under the title "Estimating Jump-Diffusions for Equity Returns." The views expressed herein are those of the authors and not necessarily those of the National Bureau of Economic Research.

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Portfolio Choice over the Life‐Cycle when the Stock and Labor Markets Are Cointegrated

Benzoni¹,

Collin‐Dufresne²,

Goldstein³

2007

The Journal of Finance

373

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We study portfolio choice when labor income and dividends are cointegrated. Economically plausible calibrations suggest young investors should take substantial short positions in the stock market. Because of cointegration the young agent's human capital effectively becomes “stock‐like.” However, for older agents with shorter times‐to‐retirement, cointegration does not have sufficient time to act, and thus their human capital becomes more “bond‐like.” Together, these effects create hump‐shaped life‐cycle portfolio holdings, consistent with empirical observation. These results hold even when asset return predictability is accounted for.

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Do Bonds Span Volatility Risk in the U.S. Treasury Market? A Specification Test for Affine Term Structure Models

Andersen

Benzoni

2008

SSRN Journal

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We investigate whether bonds span the volatility risk in the U.S. Treasury market, as predicted by most 'affine' term structure models. To this end, we construct powerful and model-free empirical measures of the quadratic yield variation for a cross-section of fixed-maturity zero-coupon bonds ("realized yield volatility") through the use of high-frequency data. We find that the yield curve fails to span yield volatility, as the systematic volatility factors are largely unrelated to the cross-section of yields. We conclude that a broad class of affine diffusive, Gaussian-quadratic and affine jump-diffusive models is incapable of accommodating the observed yield volatility dynamics. An important implication is that the bond markets per se are incomplete and yield volatility risk cannot be hedged by taking positions solely in the Treasury bond market. We also advocate using the empirical realized yield volatility measures more broadly as a basis for specification testing and (parametric) model selection within the term structure literature.

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Luca Benzoni

An Empirical Investigation of Continuous‐Time Equity Return Models

Portfolio Choice Over the Life-Cycle when the Stock and Labor Markets are Cointegrated

An Empirical Investigation of Continuous-Time Equity Return Models

Portfolio Choice over the Life‐Cycle when the Stock and Labor Markets Are Cointegrated

Do Bonds Span Volatility Risk in the U.S. Treasury Market? A Specification Test for Affine Term Structure Models

Contact Info

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