Topographic Transformation as a Discrete Latent Variable
Abstract
Invariance to topographic transformations such as translation and shearing in an image has been successfully incorporated into feed(cid:173) forward mechanisms, e.g., "convolutional neural networks", "tan(cid:173) gent propagation". We describe a way to add transformation invari(cid:173) ance to a generative density model by approximating the nonlinear transformation manifold by a discrete set of transformations. An EM algorithm for the original model can be extended to the new model by computing expectations over the set of transformations. We show how to add a discrete transformation variable to Gaussian mixture modeling, factor analysis and mixtures of factor analysis. We give results on filtering microscopy images, face and facial pose clustering, and handwritten digit modeling and recognition.
Cite
Text
Jojic and Frey. "Topographic Transformation as a Discrete Latent Variable." Neural Information Processing Systems, 1999.Markdown
[Jojic and Frey. "Topographic Transformation as a Discrete Latent Variable." Neural Information Processing Systems, 1999.](https://mlanthology.org/neurips/1999/jojic1999neurips-topographic/)BibTeX
@inproceedings{jojic1999neurips-topographic,
title = {{Topographic Transformation as a Discrete Latent Variable}},
author = {Jojic, Nebojsa and Frey, Brendan J.},
booktitle = {Neural Information Processing Systems},
year = {1999},
pages = {477-483},
url = {https://mlanthology.org/neurips/1999/jojic1999neurips-topographic/}
}