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Predictable Dynamics in Higher-Order Risk-Neutral Moments: Evidence from the S&P 500 Options

Published online by Cambridge University Press:  18 June 2013

Michael Neumann  and
George Skiadopoulos
Michael Neumann
Affiliation:
m.neumann@qmul.ac.uk, School of Economics and Finance, Queen Mary, University of London, 327 Mile End Rd, London E1 4NS, UK
George Skiadopoulos
Affiliation:
gskiado@unipi.gr, Department of Banking and Financial Management, University of Piraeus, Karaoli and Dimitriou 80, Piraeus 18534, Greece, and Queen Mary, University of London, UK, and City University London, UK
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Abstract

We investigate whether there are predictable patterns in the dynamics of higher-order risk-neutral moments (RNMs) extracted from the market prices of Standard & Poor’s (S&P) 500 index options. To this end, we conduct a horse race among alternative forecasting models within an out-of-sample context over various forecasting horizons. We consider both a statistical and an economic setting. We find that higher RNMs can be statistically forecasted. However, only the 1-day-ahead skewness forecasts can be economically exploited. This economic significance vanishes once we incorporate transaction costs. The results have implications for the dynamics of implied volatility surfaces.

Type
Research Articles
Information
Journal of Financial and Quantitative Analysis , Volume 48 , Issue 3 , June 2013 , pp. 947 - 977
Copyright
Copyright © Michael G. Foster School of Business, University of Washington 2013 

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References

Ait-Sahalia, Y.; Wang, Y.; and Yared, F.. “Do Option Markets Correctly Price the Probabilities of Movement of the Underlying Asset?Journal of Econometrics, 102 (2001), 67110.CrossRefGoogle Scholar
Bakshi, G.; Cao, C.; and Chen, Z.. “Empirical Performance of Alternative Option Pricing Models.” Journal of Finance, 52 (1997), 20032049.CrossRefGoogle Scholar
Bakshi, G.; Kapadia, N.; and Madan, D.. “Stock Return Characteristics, Skew Laws, and the Differential Pricing of Individual Equity Options.” Review of Financial Studies, 16 (2003), 101143.CrossRefGoogle Scholar
Bakshi, G., and Madan, D.. “A Theory of Volatility Spreads.” Management Science, 52 (2006), 112.CrossRefGoogle Scholar
Bakshi, G.; Panayotov, G.; and Skoulakis, G.. “Improving the Predictability of Real Economic Activity and Asset Returns with Forward Variances Inferred from Option Portfolios.” Journal of Financial Economics, 100 (2011), 475495.CrossRefGoogle Scholar
Bali, T. G., and Murray, S.. “Does Risk-Neutral Skewness Predict the Cross-Section of Equity Option Portfolio Returns?Journal of Financial and Quantitative Analysis, forthcoming (2013).CrossRefGoogle Scholar
Blanchard, O., and Watson, M.. “Bubbles, Rational Expectations, and Financial Markets.” In Crises in the Economic and Financial Structure, Wachter, P., ed. Lexington, MA: Lexington Books (1982).Google Scholar
Bollen, N. P., and Whaley, R. E.. “Does Net Buying Pressure Affect the Shape of Implied Volatility Functions?Journal of Finance, 59 (2004), 711753.CrossRefGoogle Scholar
Bollerslev, T.; Tauchen, G.; and Zhou, H.. “Expected Stock Returns and Variance Risk Premia.” Review of Financial Studies, 22 (2009), 44634492.CrossRefGoogle Scholar
Broadie, M.; Chernov, M.; and Johannes, M.. “Understanding Index Option Returns.” Review of Financial Studies, 22 (2009), 44934529.CrossRefGoogle Scholar
Campbell, J. Y., and Hentschel, L.. “No News Is Good News: An Asymmetric Model of Changing Volatility in Stock Returns.” Journal of Financial Economics, 31 (1992), 281318.CrossRefGoogle Scholar
Carr, P., and Wu, L.. “Variance Risk Premiums.” Review of Financial Studies, 22 (2009), 13111341.CrossRefGoogle Scholar
Chang, B. Y.; Christoffersen, P.; and Jacobs, K.. “Market Skewness Risk and the Cross-Section of Stock Returns.” Journal of Financial Economics, 107 (2013), 4668.CrossRefGoogle Scholar
Cremers, M., and Weinbaum, D.. “Deviations from Put-Call Parity and Stock Return Predictability.” Journal of Financial and Quantitative Analysis, 45 (2010), 335367.CrossRefGoogle Scholar
David, A., and Veronesi, P.. “Option Prices with Uncertain Fundamentals.” Working Paper, University of Chicago (2002).Google Scholar
Dennis, P., and Mayhew, D.. “Risk-Neutral Skewness: Evidence from Stock Options.” Journal of Financial and Quantitative Analysis, 37 (2002), 471492.CrossRefGoogle Scholar
Dumas, B.; Fleming, J.; and Whaley, R. E.. “Implied Volatility Functions: Empirical Tests.” Journal of Finance, 53 (1998), 20162059.CrossRefGoogle Scholar
Gârleanu, N.; Pedersen, L. H.; and Poteshman, A. M.. “Demand-Based Option Pricing.” Review of Financial Studies, 22 (2009), 42594299.CrossRefGoogle Scholar
Ghysels, E.; Plazzi, A.; and Valkanov, R.. “Conditional Skewness of Stock Market Returns in Developed and Emerging Markets and Its Economic Fundamentals.” Working Paper, University of North Carolina at Chapel Hill (2011).CrossRefGoogle Scholar
Giamouridis, D., and Skiadopoulos, G.. “The Informational Content of Financial Options for Quantitative Asset Management: A Review.” In Handbook of Quantitative Asset Management, Scherer, B. and Winston, K., eds. Oxford University Press (2012), 243265.Google Scholar
Gonçalves, S., and Guidolin, M.. “Predictable Dynamics in the S&P 500 Index Options Implied Volatility Surface.” Journal of Business, 79 (2006), 15911635.CrossRefGoogle Scholar
Guidolin, M., and Timmermann, A.. “Option Prices under Bayesian Learning: Implied Volatility Dynamics and Predictive Densities.” Journal of Economic Dynamics and Control, 27 (2003), 717769.CrossRefGoogle Scholar
Hansen, P. R.; Lunde, A.; and Nason, J. M.. “The Model Confidence Set.” Econometrica, 79 (2011), 453497.Google Scholar
Hansis, A.; Schlag, C.; and Vilkov, G.. “The Dynamics of Risk-Neutral Implied Moments: Evidence from Individual Options.” Working Paper, Goethe University, Frankfurt am Main (2010).Google Scholar
Harvey, C. R., and Siddique, A.. “Autoregressive Conditional Skewness.” Journal of Financial and Quantitative Analysis, 34 (1999), 465487.CrossRefGoogle Scholar
Harvey, C. R., and Siddique, A.. “Conditional Skewness in Asset Pricing Tests.” Journal of Finance, 55 (2000), 12631295.CrossRefGoogle Scholar
Harvey, C. R., and Whaley, R. E.. “Market Volatility Prediction and the Efficiency of the S&P 100 Index Option Market.” Journal of Financial Economics, 31 (1992), 4373.CrossRefGoogle Scholar
Harvey, D.; Leybourne, S.; and Newbold, P.. “Testing the Equality of Prediction Mean Squared Errors.” International Journal of Forecasting, 13 (1997), 281291.CrossRefGoogle Scholar
Hong, H., and Stein, J. C.. “Differences of Opinion, Short-Sales Constraints, and Market Crashes.” Review of Financial Studies, 16 (2003), 487525.CrossRefGoogle Scholar
Jha, R., and Kalimipalli, M.. “The Economic Significance of Conditional Skewness Forecasts in Index Option Markets.” Journal of Futures Markets, 30 (2010), 378406.CrossRefGoogle Scholar
Jiang, G. J., and Tian, Y. S.. “The Model-Free Implied Volatility and Its Information Content.” Review of Financial Studies, 18 (2005), 13051342.CrossRefGoogle Scholar
Johansen, S. “Statistical Analysis of Cointegrating Vectors.” Journal of Economic Dynamics and Control, 12 (1988), 231254.CrossRefGoogle Scholar
Kang, B. J.; Kim, T. S.; and Yoon, S.-J.. “Information Content of Volatility Spreads.” Journal of Futures Markets, 30 (2010), 533558.CrossRefGoogle Scholar
Konstantinidi, E.; Skiadopoulos, G.; and Tzagkaraki, E.. “Can the Evolution of Implied Volatility Be Forecasted? Evidence from European and US Implied Volatility Indices.” Journal of Banking and Finance, 32 (2008), 24012411.CrossRefGoogle Scholar
Kostakis, A.; Panigirtzoglou, N.; and Skiadopoulos, G.. “Market Timing with Option-Implied Distributions: A Forward-Looking Approach.” Management Science, 57 (2011), 12311249.CrossRefGoogle Scholar
Kozhan, R.; Neuberger, A.; and Schneider, P.. “The Skew Risk Premium in the Equity Index Market.” Review of Financial Studies, 26 (2013), 21742203.CrossRefGoogle Scholar
Leland, H. E. “Beyond Mean-Variance: Performance Measurement in a Nonsymmetrical World.” Financial Analysts Journal, 55 (1999), 2736.CrossRefGoogle Scholar
Lynch, D., and Panigirtzoglou, N.. “Summary Statistics of Option-Implied Probability Density Functions and Their Properties.” Working Paper, Bank of England (2008).CrossRefGoogle Scholar
Malz, A. M. “Estimating the Probability Distribution of the Future Exchange Rate from Option Prices.” Journal of Derivatives, 5 (1997), 1836.CrossRefGoogle Scholar
Merton, R. “Theory of Rational Option Pricing.” Bell Journal of Economics and Management Science, 4 (1973), 141183.Google Scholar
Newey, W. K., and West, K. D.. “A Simple, Positive Semi-Definite, Heteroskedasticity and Autocorrelation Consistent Covariance Matrix.” Econometrica, 55 (1987), 703708.CrossRefGoogle Scholar
Panigirtzoglou, N., and Skiadopoulos, G.. “A New Approach to Modeling the Dynamics of Implied Distributions: Theory and Evidence from the S&P 500 Options.” Journal of Banking and Finance, 28 (2004), 14991520.CrossRefGoogle Scholar
Politis, D. N., and Romano, J. P.. “The Stationary Bootstrap.” Journal of the American Statistical Association, 89 (1994), 13031313.CrossRefGoogle Scholar
Santa-Clara, P., and Saretto, A.. “Option Strategies: Good Deals and Margin Calls.” Journal of Financial Markets, 12 (2009), 391417.CrossRefGoogle Scholar
Taylor, S. J.; Yadav, P. K.; and Zhang, Y.. “Cross-Sectional Analysis of Risk-Neutral Skewness.” Journal of Derivatives, 16 (2009), 3852.CrossRefGoogle Scholar
Xing, Y.; Zhang, X.; and Zhao, R.. “What Does the Individual Option Volatility Smirk Tell Us About Future Equity Returns?Journal of Financial and Quantitative Analysis, 45 (2010), 641662.CrossRefGoogle Scholar
Zhang, J. E., and Xiang, Y.. “The Implied Volatility Smirk.” Quantitative Finance, 8 (2008), 263284.CrossRefGoogle Scholar
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