Hostname: page-component-78c5997874-t5tsf Total loading time: 0 Render date: 2024-11-14T22:39:26.620Z Has data issue: false hasContentIssue false
  • English
  • Français

Testing the Empirical Performance of Stochastic Volatility Models of the Short-Term Interest Rate

Published online by Cambridge University Press:  06 April 2009

Turan G. Bali
Get access Rights & Permissions [Opens in a new window]

Abstract

I introduce two-factor discrete time stochastic volatility models of the short-term interest rate to compare the relative performance of existing and alternative empiricial specificattions. I develop a nonlinear asymmmetric framework that allows for comparisons of non-nested models featuring conditional heteoskedasticity and sensitivity of the volatility process to interest rate levels. A new class of stochastic volatility models with asymmetric GARCH models. The existing models are rejected in favor of the newly proposed models because of the asymmetric drift of the short rate, and the presence of nonlinearity, asymmetry, GARCH, and level effects in its volatility. I test the predictive power of nested and non-nested models in capturing the stochastic behavior of the risk-free rate. Empirical evidence on three-, six-, and 12-month U.S. Treasury bills indicates but that two-factor stochastic volatility models are better than diffusion and GARCH models in forecasting the future level and volatility of interest rate changes.

Type
Research Article
Information
Journal of Financial and Quantitative Analysis , Volume 35 , Issue 2 , June 2000 , pp. 191 - 215
Copyright
Copyright © School of Business Administration, University of Washington 2000

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

Footnotes

*

Department of Economics and Finance, Baruch College, City University of New York, 17 Lexington Avenue, Box E-621, New York, NY 10010. I am very; grateful to paul Malatesta (the editor) and Vance Roley (associate editor and referee) for their extremely helpful comments and suggestions. Finacial Support from the PSC-CUNY Research Foundationa of the City University of New York is also gratefully acknowledged.

References

Ait-Sahalia, Y.Testing continuous-Time Models of the Spot Interest Rate.” Review of Finacial Studies, 9 (1996a), 385–426.Google Scholar
Ait-Sahalia, Y.Nonparametric pricing of Interest Rate Derivatives.” Econometrica, 64 (1996b), 527–560.10.2307/2171860Google Scholar
Anderson, T. G., and Lund, J.. “Estimating Continuous-Time Stochastic Volatility Models of the Short-Term Interest Rate.” Journal of Econometrics, 77 (1997, 343–377.Google Scholar
Bali, T. G.An Empirical Comparison of Continuous Time Models of the Short Term Interest Rate.” Journal of Futures Markets, 19 (1999), 777–798.10.1002/(SICI)1096-9934(199910)19:7<777::AID-FUT3>3.0.CO;2-GGoogle Scholar
Berndt, E. K.; Hall, B.H.; Hall, R. E.; and Hausmann, J. A.. “Estimation and Inference in Non-Linear Structural Models.” Annals of Economic and Social Measurement, 4 (1974), 653665.Google Scholar
Bollerslev, T.Generalized Autoregressive Conditional Heteroskedasticity.” Journal of Econometrics, 31 (1986), 307327.10.1016/0304-4076(86)90063-1CrossRefGoogle Scholar
Bollerslev, T.A Conditionally Heteroskedastic Time Series Model of Security Prices and Rates of Return Data.” Review of Economics and Statistics, 59 (1987), 542547.10.2307/1925546Google Scholar
Brenner, R.J.; Harjes, R. H.; and Kroner, K. F.. “Another Look at Models of the Short Term Interest Rate.” Journal of Financial and Quantitative analysis, 31 (1996), 85107.10.2307/2331388S0022109000000454CrossRefGoogle Scholar
Broze, L.; Scaillet, O.; and Zakoian, J.-M.. “Testing for Continuous-Time models of the Short-Term Interest Rate.” Journal of Empirical Finance, 2 (1995), 199223.10.1016/0927-5398(95)00003-DGoogle Scholar
Chan, K. C.; Karolyi, G. a.; Longstaff, F. A.; and Sanders, A. B.. “An Empirical Comparison of Alternative Models of the Short-Term Interest Rate.” Journal of Finance, 47 (1992), 12091227.10.2307/2328983Google Scholar
Chen, R.-R., and Scott, L.. “Maximum Likelihood Estimation for a Multi-factor Equilibrium Model of the Term Structure of Interest Rates.” Journal of Fixed Income, 3 (1993), 1431.10.3905/jfi.1993.408090CrossRefGoogle Scholar
Conley, T.G.; Hansen, L. P.; Luttmer, E. G. Z.; and Scheinkman, J. A.. “Short-Term Interest Rates As Subordinated Diffusions.” Review of Financial Studies, 10 (1997), 525577.10.1093/rfs/10.3.525Google Scholar
Cox, J.; Ingersoll, J.: and Ross, S.. “A Theory of the Term Structure of Interest Rates.” Econometrica, 53 (1985), 385407.10.2307/1911242CrossRefGoogle Scholar
Duan, J.-C.Augmented GARCH(p,q) Process and Its Diffusion Limit.” Journal of Econometrics, 79 (1997), 97127.10.1016/S0304-4076(97)00009-2Google Scholar
Engle, R. F.Autoregressive Conditional Hetersokedasticity with Estimates of the Variance of United Kingdom Inflation.” Econometrica, 50 (1982), 9871007.10.2307/1912773CrossRefGoogle Scholar
Engle, R. F.Discussion: Stock Market Volatility and the Crash of '87.” review of Financial Studies, 3 (1990), 103106.10.1093/rfs/3.1.103Google Scholar
Engle, R. F., and Bollerslev, T.. “Modeling the Persistence of Conditional Variances.” Econometric Reviews, 5 (1986), 150.10.1080/07474938608800095CrossRefGoogle Scholar
Engle, R. F., Lilien, D.; and Robins, R.. “Estimating Time Varyin Risk Premia in the Term Structure; The ARCH-M Model.” Econometrica, 55 (1987), 391407.10.2307/1913242CrossRefGoogle Scholar
Engle, R. F., and Ng, V. K.; “Mesuring and Testing the Impact of News on Volatility.” Journal of Finance, 48 (1993), 17491778.10.2307/2329066CrossRefGoogle Scholar
Engle, R. F.; Ng, V.; and Rothschild, M., “Asset Pricing a Factor ARCH Covariance Structure: Empirical Estimates for Treasury Bills.” Journal of Econometrics, 45 (1992), 213238.10.1016/0304-4076(90)90099-FCrossRefGoogle Scholar
Eom, Y. H.On Efficient GMM Estimation of Continuous-Time Asset Dynamics: Implications for the Term Structure of Interest Rates.” Working Paper, Federal Reserve Bank of New York (1998).Google Scholar
Fong, H. G., and Vasicek, O. A.. “Fixed Income Volatility Management.” Journal of Protfolio Management (Summer 1991), 4146.CrossRefGoogle Scholar
Friedman, B. M., and Laibson, D. I.. “Economic Implications of Extraordinary Movements in Stock Prices.” Brookings Papers on Economic Activity, 2 (1989), 137189.Google Scholar
Glosten, L. R.; Jagannathan, R.; and Runkle, D. E.. “On the Relation between the Expected Value and the Volatility of the Nominal Excess Return on Stocks.” Journal of Finance, 48 (1993), 17791801.10.2307/2329067Google Scholar
Gray, S. F.Modeling the Conditional Distribution of Interest Rates as a Regime-Switching Process.” Journal of Financial Economics, 42 (1996), 2762.10.1016/0304-405X(96)00875-6CrossRefGoogle Scholar
Hansen, L. P., and Scheinkman, J.. “Back to the Future: Generating Moment Implications for Continuous-Time Markov Processes.” Econometrica, 63 (1995), 767804.10.2307/2171800Google Scholar
Heston, S.A Closed-Form Solution for Options with Stochastic Volatility with Applications to Bond and Currency Options.” Review of financial Studies, 6 (1993), 327343.10.1093/rfs/6.2.327Google Scholar
Heston, S., and Nandi, S.. “Pricing Bonds and Interest Rate Derivatives under a Two-factor Model of Interest Rates with GARCH Volatility: Analytical Solutions and Their Applications.” Working Paper, Federal Reserve Bank of Atlanta (1998).Google Scholar
Hong, C.-H.The Integrated Generalized Autoresgressive Conditional Heteroskedastic Model: The Process, Estimation and Monte Carlo Experiments.” Working Paper, Univ. of California, San Diego (1988).Google Scholar
Lo, A. W., and Wang, J.. “Implementing Option Pricing Models when Asset Returns Are Predictable.” Journal of Finance, 50 (1995), 87129.10.2307/2329240CrossRefGoogle Scholar
Longstaff, F. A., and Schwartz, E. S.. “Interest Rate Volatility and the Term Structure: a Two-Factor General Equilibrium Model.” Journal of Finance, 47 (1992), 12591282.10.2307/2328939Google Scholar
Merton, R. C.Theory of Rational Option Pricing.” Bell Journal of Economics and Management Science, 4 (1973), 141183.10.2307/3003143Google Scholar
Nelson, D. B.Stationarity and Persistence in the GARCH (1,1) Model.” Econometric Theory, 6 (1990), 318344.10.1017/S0266466600005296S0266466600005296CrossRefGoogle Scholar
Nelson, D. B.Conditional Heteroskedasticity in Asset Returns: A New Approach.” Econometrica, 59 (1991), 347370.10.2307/2938260Google Scholar
Nowman, K. B.Gaussian Estimation of Single-Factor Continuous Time Models of the Term Structure of Interest Rates.” Journal of Finance, 4 (1997), 16951706.10.2307/2329453Google Scholar
Pearson, N. D., and Sun, T.-S.. “Exploiting the Conditional Density in Estimating the Term Structure: An application to the Cox, Ingersoll, and Ross Model.” Journal of Finance, 49 (1994), 12791304.10.2307/2329186CrossRefGoogle Scholar
Schwert, G. W.Why Does Stock Market Volatility Change over Time?Journal of Finance, 44 (1989), 11151153.10.2307/2328636CrossRefGoogle Scholar
Sentana, E.Quadratic ARCH Models.” Review of Economic Studies, 62 (1995), 639661.10.2307/2298081CrossRefGoogle Scholar
Stanton, R.A Nonparametric Model of Term Structure Dynamics and the Market Price of Interest Rate RiskJournal of Finance, 52 (1997), 19732002.10.2307/2329471CrossRefGoogle Scholar
Taylor, S. Modeling Finacial Time Series, New york, NY: Wiley (1986).Google Scholar
Vasicek, O.An Equilibrium Characterization of the Term Structure.” Journal of Finacial Economics, 5 (1977), 177188.10.1016/0304-405X(77)90016-2Google Scholar
Zakoian, J.-M.Threshold Heteroskedastic Models.” Journal of Economic Dynamics and Control. 18 (1994), 931995.10.1016/0165-1889(94)90039-6CrossRefGoogle Scholar