Abstract
We study a nonparametric Bayesian approach to estimation of the volatility function of a stochastic differential equation driven by a gamma process. The volatility function is modelled a priori as piecewise constant, and we specify a gamma prior on its values. This leads to a straightforward procedure for posterior inference via an MCMC procedure. We give theoretical performance guarantees (minimax optimal contraction rates for the posterior) for the Bayesian estimate in terms of the regularity of the unknown volatility function. We illustrate the method on synthetic and real data examples.
Acknowledgments
The research leading to these results has received funding from the European Research Council under ERC Grant Agreement 320637. The research of the first author was supported by the HSE University Basic Research Program and the German Science Foundation research grant (DFG Sachbeihilfe) 406700014.
Citation
Denis Belomestny. Shota Gugushvili. Moritz Schauer. Peter Spreij. "Nonparametric Bayesian volatility estimation for gamma-driven stochastic differential equations." Bernoulli 28 (4) 2151 - 2180, November 2022. https://doi.org/10.3150/21-BEJ1413
