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Estimation of Continuous-time Models with an Application to Equity Volatility Dynamics
Gurdip Bakshi University of Maryland - Robert H. Smith School of Business Nengjiu Ju Hong Kong University of Science & Technology (HKUST) - Department of Finance Hui Ou-Yang Nomura International, Hong Kong January 24, 2005 Abstract: The treatment of this article renders closed-form density approximation feasible for univariate continuous-time models. Implementation methodology depends directly on the parametric-form of the drift and the diffusion of the primitive process and not on its transformation to a unit-variance process. Offering methodological convenience, the approximation method relies on numerically evaluating one-dimensional integrals and circumvents existing dependence on intractable multidimensional integrals. Density-based inferences can now be drawn for a broader set of models of equity volatility. Our empirical results provide insights on crucial outstanding issues related to the rank-orderings of continuous-time stochastic volatility models, the absence/presence of non-linearities in the drift function, and the desirability of pursuing more flexible diffusion function specifications.
Keywords: Continuous-time models, Maximum-likelihood estimation, Density approximation JEL Classifications: G10, G11, G12, G13, C15, C32, C52 Working Paper SeriesDate posted: March 19, 2005 ; Last revised: August 19, 2005Suggested CitationContact Information
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