Title :
Poisson-uniform nonnegative matrix factorization
Author :
Hoffman, Matthew D.
Author_Institution :
Dept. of Stat., Columbia Univ., New York, NY, USA
Abstract :
Probabilistic models of audio spectrograms used in audio source separation often rely on Poisson or multinomial noise models corresponding to the generalized Kullback-Leibler (GKL) divergence popular in methods using Nonnegative Matrix Factorization (NMF). This noise model works well in practice, but it is difficult to justify since these distributions are technically only applicable to discrete counts data. This issue is particularly problematic in hierarchical and non-parametric Bayesian models where estimates of uncertainty depend strongly on the likelihood model. In this paper, we present a hierarchical Bayesian model that retains the flavor of the Poisson likelihood model but yields a coherent generative process for continuous spectrogram data. This model allows for more principled, accurate, and effective Bayesian inference in probabilistic NMF models based on GKL.
Keywords :
Poisson equation; audio signal processing; blind source separation; matrix decomposition; probability; Bayesian inference; GKL; NMF; Poisson likelihood model; Poisson models; Poisson-uniform nonnegative matrix factorization; audio source separation; audio spectrograms; coherent generative process; generalized Kullback-Leibler divergence popular; hierarchical Bayesian model; multinomial noise models; nonnegative matrix factorization; probabilistic NMF models; probabilistic models; Bayesian methods; Matrix decomposition; Maximum likelihood estimation; Noise; Probabilistic logic; Source separation; Spectrogram; Bayesian models; NMF; audio; blind source separation; variational inference;
Conference_Titel :
Acoustics, Speech and Signal Processing (ICASSP), 2012 IEEE International Conference on
Conference_Location :
Kyoto
Print_ISBN :
978-1-4673-0045-2
Electronic_ISBN :
1520-6149
DOI :
10.1109/ICASSP.2012.6289132
