articleJan 1, 2008Closed access
Bayesian probabilistic matrix factorization using Markov chain Monte Carlo
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Abstract
Low-rank matrix approximation methods provide one of the simplest and most effective approaches to collaborative filtering. Such models are usually fitted to data by finding a MAP estimate of the model parameters, a procedure that can be performed efficiently even on very large datasets. However, unless the regularization parameters are tuned carefully, this approach is prone to overfitting because it finds a single point estimate of the parameters. In this paper we present a fully Bayesian treatment of the Probabilistic Matrix Factorization (PMF) model in which model capacity is controlled automatically by integrating over all model parameters and hyperparameters. We show that Bayesian PMF models can be…
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Topics
Keywords
- Markov chain Monte Carlo
- Overfitting
- Computer science
- Hyperparameter
- Bayesian probability
- Probabilistic logic
- Variable-order Bayesian network
- Markov chain
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