Explorations in Homeomorphic Variational Auto-Encoding
Abstract
The manifold hypothesis states that many kinds of high-dimensional data are concentrated near a low-dimensional manifold. If the topology of this data manifold is non-trivial, a continuous encoder network cannot embed it in a one-to-one manner without creating holes of low density in the latent space. This is at odds with the Gaussian prior assumption typically made in Variational Auto-Encoders (VAEs), because the density of a Gaussian concentrates near a blob-like manifold. In this paper we investigate the use of manifold-valued latent variables. Specifically, we focus on the important case of continuously differentiable symmetry groups (Lie groups), such as the group of 3D rotations . We show how a VAE with -valued latent variables can be constructed, by extending the reparameterization trick to compact connected Lie groups. Our experiments show that choosing manifold-valued latent variables that match the topology of the latent data manifold, is crucial to preserve the topological structure and learn a well-behaved latent space.
Cite
@article{arxiv.1807.04689,
title = {Explorations in Homeomorphic Variational Auto-Encoding},
author = {Luca Falorsi and Pim de Haan and Tim R. Davidson and Nicola De Cao and Maurice Weiler and Patrick Forré and Taco S. Cohen},
journal= {arXiv preprint arXiv:1807.04689},
year = {2018}
}
Comments
16 pages, 8 figures, ICML workshop on Theoretical Foundations and Applications of Deep Generative Models