Title:
Structured Learning with Manifold Representations of Natural Data Variations
Structured Learning with Manifold Representations of Natural Data Variations
Author(s)
Connor, Marissa Catherine
Advisor(s)
Rozell, Christopher J.
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Abstract
According to the manifold hypothesis, natural variations in high-dimensional data lie on or near a low-dimensional, nonlinear manifold. Additionally, many identity-preserving transformations are shared among classes of data which can allow for an efficient representation of data variations: a limited set of transformations can describe a majority of variations in many classes. This work demonstrates the learning of generative models of identity-preserving transformations on data manifolds in order to analyze, generate, and exploit the natural variations in data for machine learning tasks. The introduced transformation representations are incorporated into several novel models to highlight the ability to generate realistic samples of semantically meaningful transformations, to generalize transformations beyond their source domain, and to estimate transformations between data samples. We first develop a model for learning 3D manifold-based transformations from 2D projected inputs which can be used to perform depth inference from 2D moving inputs. We then confirm that our generative model of transformations can be generalized across classes by defining two transfer learning tasks that map transformations learned from a rich dataset to previously unseen data. Next, we develop the manifold autoencoder, which learns low-dimensional manifold structure from complex data in the latent space of an autoencoder and adapts the latent space to accommodate this structure. Finally, we introduce the Variational Autoencoder with Learned Latent Structure (VAELLS) which incorporates a learnable manifold model into the fully probabilistic generative framework of a variational autoencoder.
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Date Issued
2021-08-24
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Text
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Dissertation