Krzysztof Podgórski
Prefekt Statistiska institutionen, Professor
A novel weighted likelihood estimation with empirical Bayes flavor
Författare
Summary, in English
We propose a novel approach to estimation, where each individual observation in a random sample is used to derive an estimator of an unknown parameter using the maximum likelihood principle. These individual estimators are then combined as a weighted average to produce the final estimator. The weights are chosen to be proportional to the likelihood function evaluated at the estimators based on each observation. The method can be related to a Bayesian approach, where the prior distribution is data driven. In case of estimating a location parameter of a unimodal density, the prior distribution is the empirical distribution of the sample, and converges to the true distribution that generated the data as the sample size increases.
We provide several examples illustrating the new method, argue for its consistency, and conduct simulation studies to assess the performance of the estimators. It turns out that this straightforward methodology produces consistent estimators, which seem to be comparable with those obtained by the maximum likelihood method.
We provide several examples illustrating the new method, argue for its consistency, and conduct simulation studies to assess the performance of the estimators. It turns out that this straightforward methodology produces consistent estimators, which seem to be comparable with those obtained by the maximum likelihood method.
Avdelning/ar
- Statistiska institutionen
Publiceringsår
2015
Språk
Engelska
Publikation/Tidskrift/Serie
Working Papers in Statistics
Issue
6
Fulltext
- Available as PDF - 259 kB
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Länkar
Dokumenttyp
Working paper
Förlag
Department of Statistics, Lund university
Ämne
- Probability Theory and Statistics
Nyckelord
- Consistency
- data-dependent prior
- empirical Bayes
- exponentiated distribution
- location parameter
- maximum likelihood estimator
- super-efficiency
- unbounded likelihood
Aktiv
Published