Symmetry-based disentangled representation learning requires interaction with environments

Hugo Caselles-Dupré; Michael Garcia-Ortiz; David Filliat

Symmetry-based disentangled representation learning requires interaction with environments

Hugo Caselles-Dupré, Michael Garcia-Ortiz, David Filliat

Research output: Contribution to journal › Conference article › peer-review

Abstract

Finding a generally accepted formal definition of a disentangled representation in the context of an agent behaving in an environment is an important challenge towards the construction of data-efficient autonomous agents. Higgins et al. (2018) recently proposed Symmetry-Based Disentangled Representation Learning, a definition based on a characterization of symmetries in the environment using group theory. We build on their work and make observations, theoretical and empirical, that lead us to argue that Symmetry-Based Disentangled Representation Learning cannot only be based on static observations: agents should interact with the environment to discover its symmetries. Our experiments can be reproduced in Colab ¹ and the code is available on GitHub ²,.

Original language	English
Journal	Advances in Neural Information Processing Systems
Volume	32
Publication status	Published - 1 Jan 2019
Event	33rd Annual Conference on Neural Information Processing Systems, NeurIPS 2019 - Vancouver, Canada Duration: 8 Dec 2019 → 14 Dec 2019

Cite this

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title = "Symmetry-based disentangled representation learning requires interaction with environments",

abstract = "Finding a generally accepted formal definition of a disentangled representation in the context of an agent behaving in an environment is an important challenge towards the construction of data-efficient autonomous agents. Higgins et al. (2018) recently proposed Symmetry-Based Disentangled Representation Learning, a definition based on a characterization of symmetries in the environment using group theory. We build on their work and make observations, theoretical and empirical, that lead us to argue that Symmetry-Based Disentangled Representation Learning cannot only be based on static observations: agents should interact with the environment to discover its symmetries. Our experiments can be reproduced in Colab 1 and the code is available on GitHub 2,.",

author = "Hugo Caselles-Dupr{\'e} and Michael Garcia-Ortiz and David Filliat",

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AU - Caselles-Dupré, Hugo

AU - Garcia-Ortiz, Michael

AU - Filliat, David

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N2 - Finding a generally accepted formal definition of a disentangled representation in the context of an agent behaving in an environment is an important challenge towards the construction of data-efficient autonomous agents. Higgins et al. (2018) recently proposed Symmetry-Based Disentangled Representation Learning, a definition based on a characterization of symmetries in the environment using group theory. We build on their work and make observations, theoretical and empirical, that lead us to argue that Symmetry-Based Disentangled Representation Learning cannot only be based on static observations: agents should interact with the environment to discover its symmetries. Our experiments can be reproduced in Colab 1 and the code is available on GitHub 2,.

AB - Finding a generally accepted formal definition of a disentangled representation in the context of an agent behaving in an environment is an important challenge towards the construction of data-efficient autonomous agents. Higgins et al. (2018) recently proposed Symmetry-Based Disentangled Representation Learning, a definition based on a characterization of symmetries in the environment using group theory. We build on their work and make observations, theoretical and empirical, that lead us to argue that Symmetry-Based Disentangled Representation Learning cannot only be based on static observations: agents should interact with the environment to discover its symmetries. Our experiments can be reproduced in Colab 1 and the code is available on GitHub 2,.

M3 - Conference article

AN - SCOPUS:85090178426

SN - 1049-5258

VL - 32

JO - Advances in Neural Information Processing Systems

JF - Advances in Neural Information Processing Systems

T2 - 33rd Annual Conference on Neural Information Processing Systems, NeurIPS 2019

Y2 - 8 December 2019 through 14 December 2019

ER -

Symmetry-based disentangled representation learning requires interaction with environments

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