Robust Bayesian Nonnegative Matrix Factorization with Implicit Regularizers

08/22/2022
by   Jun Lu, et al.
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We introduce a probabilistic model with implicit norm regularization for learning nonnegative matrix factorization (NMF) that is commonly used for predicting missing values and finding hidden patterns in the data, in which the matrix factors are latent variables associated with each data dimension. The nonnegativity constraint for the latent factors is handled by choosing priors with support on the nonnegative subspace, e.g., exponential density or distribution based on exponential function. Bayesian inference procedure based on Gibbs sampling is employed. We evaluate the model on several real-world datasets including Genomics of Drug Sensitivity in Cancer (GDSC IC_50) and Gene body methylation with different sizes and dimensions, and show that the proposed Bayesian NMF GL_2^2 and GL_∞ models lead to robust predictions for different data values and avoid overfitting compared with competitive Bayesian NMF approaches.

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