Title :
Bayesian properties of normalized maximum likelihood and its fast computation
Author :
Barron, Andrew ; Roos, Teemu ; Watanabe, K.
Author_Institution :
Dept. of Stat., Yale Univ., New Haven, CT, USA
fDate :
June 29 2014-July 4 2014
Abstract :
The normalized maximized likelihood (NML) provides the minimax regret solution in universal data compression, gambling, and prediction, and it plays an essential role in the minimum description length (MDL) method of statistical modeling and estimation. Here we show that when the sample space is finite, a generic condition on the linear independence of the component models implies that the normalized maximum likelihood has an exact Bayes-like representation as a mixture of the component models, even in finite samples, though the weights of linear combination may be both positive and negative. This addresses in part the relationship between MDL and Bayes modeling. The representation also has the practical advantage of speeding the calculation of marginals and conditionals required for coding and prediction applications.
Keywords :
Bayes methods; data compression; maximum likelihood estimation; Bayesian properties; MDL method; NML; exact Bayes-like representation; fast computation; finite samples; generic condition; linear combination; linear independence; minimax regret solution; minimum description length; normalized maximum likelihood; sample space; statistical estimation; statistical modeling; universal data compression; Approximation methods; Encoding; Equations; Maximum likelihood estimation; Optimization; Redundancy; Bayes mixtures; minimax regret; universal coding; universal prediction;
Conference_Titel :
Information Theory (ISIT), 2014 IEEE International Symposium on
Conference_Location :
Honolulu, HI
DOI :
10.1109/ISIT.2014.6875117
