Rate-adaptive bayesian independent component analysis

Weining Shen; Jing Ning; Ying Yuan

doi:10.1214/16-EJS1183

Rate-adaptive bayesian independent component analysis

Weining Shen, Jing Ning, Ying Yuan

Biostatistics

Research output: Contribution to journal › Article › peer-review

1 Scopus citations

Abstract

We consider independent component analysis (ICA) using a Bayesian approach. The latent sources are allowed to be block-wise independent while the underlying block structure is unknown. We consider prior distributions on the block structure, the mixing matrix and the marginal density functions of latent sources using a Dirichlet mixture and random series priors. We obtain a minimax-optimal posterior contraction rate of the joint density of the latent sources. This finding reveals that Bayesian ICA adaptively achieves the optimal rate of convergence according to the unknown smoothness level of the true marginal density functions and the unknown block structure. We evaluate the empirical performance of the proposed method by simulation studies.

Original language	English (US)
Pages (from-to)	3247-3264
Number of pages	18
Journal	Electronic Journal of Statistics
Volume	10
Issue number	2
DOIs	https://doi.org/10.1214/16-EJS1183
State	Published - 2016

Keywords

Adaptive estimation
Dirichlet mixture prior
Independent component analysis
Nonparametric bayes
Posterior contraction rate

ASJC Scopus subject areas

Statistics and Probability
Statistics, Probability and Uncertainty

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10.1214/16-EJS1183

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AB - We consider independent component analysis (ICA) using a Bayesian approach. The latent sources are allowed to be block-wise independent while the underlying block structure is unknown. We consider prior distributions on the block structure, the mixing matrix and the marginal density functions of latent sources using a Dirichlet mixture and random series priors. We obtain a minimax-optimal posterior contraction rate of the joint density of the latent sources. This finding reveals that Bayesian ICA adaptively achieves the optimal rate of convergence according to the unknown smoothness level of the true marginal density functions and the unknown block structure. We evaluate the empirical performance of the proposed method by simulation studies.

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KW - Independent component analysis

KW - Nonparametric bayes

KW - Posterior contraction rate

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Rate-adaptive bayesian independent component analysis

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Keywords

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