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 independent factor analyzer


Learning a Hierarchical Belief Network of Independent Factor Analyzers

Neural Information Processing Systems

Many belief networks have been proposed that are composed of binary units. However, for tasks such as object and speech recog(cid:173) nition which produce real-valued data, binary network models are usually inadequate. Independent component analysis (ICA) learns a model from real data, but the descriptive power of this model is severly limited. We begin by describing the independent factor analysis (IFA) technique, which overcomes some of the limitations of ICA. We then create a multilayer network by cascading single(cid:173) layer IFA models.


Learning a Hierarchical Belief Network of Independent Factor Analyzers

Neural Information Processing Systems

The model parameters are learned in an unsupervised manner by maximizing the likelihood that these data are generated by the model. A multilayer belief network is a realization of such a model. Many belief networks have been proposed that are composed of binary units. The hidden units in such networks represent latent variables that explain different features of the data, and whose relation to the ·Current address: Gatsby Computational Neuroscience Unit, University College London, 17 Queen Square, London WC1N 3AR, U.K. 362 H. Attias data is highly nonlinear. However, for tasks such as object and speech recognition which produce real-valued data, the models provided by binary networks are often inadequate.


Learning a Hierarchical Belief Network of Independent Factor Analyzers

Neural Information Processing Systems

The model parameters are learned in an unsupervised manner by maximizing the likelihood that these data are generated by the model. A multilayer belief network is a realization of such a model. Many belief networks have been proposed that are composed of binary units. The hidden units in such networks represent latent variables that explain different features of the data, and whose relation to the ·Current address: Gatsby Computational Neuroscience Unit, University College London, 17 Queen Square, London WC1N 3AR, U.K. 362 H. Attias data is highly nonlinear. However, for tasks such as object and speech recognition which produce real-valued data, the models provided by binary networks are often inadequate.