Learning the Irreducible Representations of Commutative Lie Groups

ICML 2014 pp. 1755-1763

/icml/2014/cohen2014icml-learning/

Abstract

We present a new probabilistic model of compact commutative Lie groups that produces invariant-equivariant and disentangled representations of data. To define the notion of disentangling, we borrow a fundamental principle from physics that is used to derive the elementary particles of a system from its symmetries. Our model employs a newfound Bayesian conjugacy relation that enables fully tractable probabilistic inference over compact commutative Lie groups – a class that includes the groups that describe the rotation and cyclic translation of images. We train the model on pairs of transformed image patches, and show that the learned invariant representation is highly effective for classification.

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Text

Cohen and Welling. "Learning the Irreducible Representations of Commutative Lie Groups." International Conference on Machine Learning, 2014.

Markdown

[Cohen and Welling. "Learning the Irreducible Representations of Commutative Lie Groups." International Conference on Machine Learning, 2014.](https://mlanthology.org/icml/2014/cohen2014icml-learning/)

BibTeX

@inproceedings{cohen2014icml-learning,
  title     = {{Learning the Irreducible Representations of Commutative Lie Groups}},
  author    = {Cohen, Taco and Welling, Max},
  booktitle = {International Conference on Machine Learning},
  year      = {2014},
  pages     = {1755-1763},
  volume    = {32},
  url       = {https://mlanthology.org/icml/2014/cohen2014icml-learning/}
}