Adaptive nonparametric drift estimation for diffusion processes using Faber–Schauder expansions

Frank van der Meulen; Moritz Schauer; Jan van Waaij

doi:10.1007/s11203-017-9163-7

Adaptive nonparametric drift estimation for diffusion processes using Faber–Schauder expansions

Frank van der Meulen, Moritz Schauer, Jan van Waaij^*

^*Corresponding author for this work

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Abstract

We consider the problem of nonparametric estimation of the drift of a continuously observed one-dimensional diffusion with periodic drift. Motivated by computational considerations, van der Meulen et al. (Comput Stat Data Anal 71:615–632, 2014) defined a prior on the drift as a randomly truncated and randomly scaled Faber–Schauder series expansion with Gaussian coefficients. We study the behaviour of the posterior obtained from this prior from a frequentist asymptotic point of view. If the true data generating drift is smooth, it is proved that the posterior is adaptive with posterior contraction rates for the (Formula presented.)-norm that are optimal up to a log factor. Contraction rates in (Formula presented.)-norms with (Formula presented.) are derived as well.

Original language	English
Pages (from-to)	1-26
Number of pages	26
Journal	Statistical Inference for Stochastic Processes
DOIs	https://doi.org/10.1007/s11203-017-9163-7
Publication status	E-pub ahead of print - 2017

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AB - We consider the problem of nonparametric estimation of the drift of a continuously observed one-dimensional diffusion with periodic drift. Motivated by computational considerations, van der Meulen et al. (Comput Stat Data Anal 71:615–632, 2014) defined a prior on the drift as a randomly truncated and randomly scaled Faber–Schauder series expansion with Gaussian coefficients. We study the behaviour of the posterior obtained from this prior from a frequentist asymptotic point of view. If the true data generating drift is smooth, it is proved that the posterior is adaptive with posterior contraction rates for the (Formula presented.)-norm that are optimal up to a log factor. Contraction rates in (Formula presented.)-norms with (Formula presented.) are derived as well.

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Adaptive nonparametric drift estimation for diffusion processes using Faber–Schauder expansions

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