Nonparametric estimation for pure jump Lévy processes based on high frequency data.
Résumé
In this paper, we study nonparametric estimation of the Lévy density for pure jump Lévy processes. We consider $n$ discrete time observations with step $\Delta$. The asymptotic framework is: $n$ tends to infinity, $\Delta=\Delta_n$ tends to zero while $n\Delta_n$ tends to infinity. First, we use a Fourier approach (``frequency domain"): this allows to construct an adaptive nonparametric estimator and to provide a bound for the global ${\mathbb L}^2$-risk. Second, we use a direct approach (``time domain") which allows to construct an estimator on a given compact interval. We provide a bound for ${\mathbb L}^2$-risk restricted to the compact interval. We discuss rates of convergence and give examples and simulation results for processes fitting in our framework.
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