Diffusions with measurement errors. I. Local Asymptotic Normality
Open Access
- 1 January 2001
- journal article
- research article
- Published by EDP Sciences in ESAIM: Probability and Statistics
- Vol. 5, 225-242
- https://doi.org/10.1051/ps:2001110
Abstract
We consider a diffusion process X which is observed at times i/n for i = 0,1,...,n, each observation being subject to a measurement error. All errors are independent and centered Gaussian with known variance pn . There is an unknown parameter within the diffusion coefficient, to be estimated. In this first paper the case when X is indeed a Gaussian martingale is examined: we can prove that the LAN property holds under quite weak smoothness assumptions, with an explicit limiting Fisher information. What is perhaps the most interesting is the rate at which this convergence takes place: it is (as when there is no measurement error) when pn goes fast enough to 0, namely npn is bounded. Otherwise, and provided the sequence pn itself is bounded, the rate is (pn / n) 1/4. In particular if pn = p does not depend on n, we get a rate n -1/4.Keywords
This publication has 9 references indexed in Scilit:
- Diffusions with measurement errors. II. Optimal estimatorsESAIM: Probability and Statistics, 2001
- Asymptotic normality of the maximum likelihood estimator in state space modelsThe Annals of Statistics, 1999
- Asymptotic normality of the maximum-likelihood estimator for general hidden Markov modelsThe Annals of Statistics, 1998
- Inference in Hidden Markov Models I: Local Asymptotic Normality in the Stationary CaseBernoulli, 1996
- Consistent and Asymptotically Normal Parameter Estimates for Hidden Markov ModelsThe Annals of Statistics, 1994
- Maximum-likelihood estimation for hidden Markov modelsStochastic Processes and their Applications, 1992
- Asymptotics in StatisticsPublished by Springer Nature ,1990
- On estimating the diffusion coefficientJournal of Applied Probability, 1987
- Limit Theorems for Stochastic ProcessesPublished by Springer Nature ,1987