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Soft mixer assignment in a hierarchical generative model of natural scene statistics

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Citation

Schwartz, O., Sejnowski, T., & Dayan, P. (2006). Soft mixer assignment in a hierarchical generative model of natural scene statistics. Neural computation, 18(11), 2680-2718. doi:10.1162/neco.2006.18.11.2680.


Cite as: https://hdl.handle.net/21.11116/0000-0002-CBD8-6
Abstract
Gaussian scale mixture models offer a top-down description of signal generation that captures key bottom-up statistical characteristics of filter responses to images. However, the pattern of dependence among the filters for this class of models is prespecified. We propose a novel extension to the gaussian scale mixturemodel that learns the pattern of dependence from observed inputs and thereby induces a hierarchical representation of these inputs. Specifically, we propose that inputs are generated by gaussian variables (modeling local filter structure), multiplied by a mixer variable that is assigned probabilistically to each input from a set of possible mixers. We demonstrate inference of both components of the generative model, for synthesized data and for different classes of natural images, such as a generic ensemble and faces. For natural images, the mixer variable assignments show invariances resembling those of complex cells in visual cortex; the statistics of the gaussian components of the model are in accord with the outputs of divisive normalization models. We also show how our model helps interrelate a wide range of models of image statistics and cortical processing.