Xiaofen Huang: Nonparametric Volatility Density Estimation
Tid: On 2013-12-11 kl 10.00
Plats: Room 306, building 6, Kräftriket, Department of mathematics, Stockholm university
Respondent: Xiaofen Huang
Handledare: Martin Sköld
Stochastic volatility modelling of financial processes has become popular and most models contain a stationary volatility process. For volatility density estimation Van Es et al.(2003) introduced a deconvolution procedure; in this thesis we instead propose another nonparametric method. It is a two-step procedure, where we fi rst apply some nonparametric regression technique to generate the process estimates, based on which we then use the ordinary kernel density estimator. To fi nd the method parameters, we also suggest automatic parameter selectors using theories from the Nadaraya-Watson estimator and continuous-time kernel density estimation. To evaluate performance of the proposed method in comparison with the deconvolution approach, we apply both methods on data simulated from Heston model and real data. For simulated data, we divide it into two sets; high frequency(hourly) and low frequency(daily). We find that the proposed method slightly outperforms the deconvolution approach in terms of mean integrated squared error(MISE) for high frequency data. However, for low frequency data, the deconvolution procedure obtains far less MISE than the proposed method. Unfortunately, their performances on the real data are hardly comparable.