Non-parametric drift estimation for diffusions from noisy data
-
Emeline Schmisser
Abstract
Consider a diffusion process (Xt)t ≥ 0, with unknown drift b(x) and diffusion coefficient σ(x), which is strictly stationary, ergodic and β-mixing. At discrete times tk = kδ for k from 1 to N, we have at disposal noisy data of the sample path, Ykδ = Xkδ+εk. The random variables (εk) are i.i.d., centred and independent of (Xt). In order to reduce the noise effect, we split data into groups of equal size p and build empirical means. The group size p is chosen such that Δ = pδ is small whereas Nδ is large. Then, the drift function b is estimated in a compact set A in a non-parametric way using a penalized least squares approach. We obtain a bound for the risk of the resulting adaptive estimator. Examples of diffusions satisfying our assumptions are given and numerical simulation results illustrate the theoretical properties of our estimators.
© by Oldenbourg Wissenschaftsverlag, Paris Cedex 06, Germany
Articles in the same Issue
- Expansions for the risk of Stein type estimates for non-normal data
- Mean-risk tests of stochastic dominance
- Non-parametric drift estimation for diffusions from noisy data
- Comparison of Markov processes via infinitesimal generators
- Method of moment estimation in time-changed Lévy models
Articles in the same Issue
- Expansions for the risk of Stein type estimates for non-normal data
- Mean-risk tests of stochastic dominance
- Non-parametric drift estimation for diffusions from noisy data
- Comparison of Markov processes via infinitesimal generators
- Method of moment estimation in time-changed Lévy models
