%0 Journal Article %1 kipf2019contrastive %A Kipf, Thomas %A van der Pol, Elise %A Welling, Max %D 2019 %K graphs iclr2020 probability %T Contrastive Learning of Structured World Models %U http://arxiv.org/abs/1911.12247 %X A structured understanding of our world in terms of objects, relations, and hierarchies is an important component of human cognition. Learning such a structured world model from raw sensory data remains a challenge. As a step towards this goal, we introduce Contrastively-trained Structured World Models (C-SWMs). C-SWMs utilize a contrastive approach for representation learning in environments with compositional structure. We structure each state embedding as a set of object representations and their relations, modeled by a graph neural network. This allows objects to be discovered from raw pixel observations without direct supervision as part of the learning process. We evaluate C-SWMs on compositional environments involving multiple interacting objects that can be manipulated independently by an agent, simple Atari games, and a multi-object physics simulation. Our experiments demonstrate that C-SWMs can overcome limitations of models based on pixel reconstruction and outperform typical representatives of this model class in highly structured environments, while learning interpretable object-based representations.

@article{kipf2019contrastive, abstract = {A structured understanding of our world in terms of objects, relations, and hierarchies is an important component of human cognition. Learning such a structured world model from raw sensory data remains a challenge. As a step towards this goal, we introduce Contrastively-trained Structured World Models (C-SWMs). C-SWMs utilize a contrastive approach for representation learning in environments with compositional structure. We structure each state embedding as a set of object representations and their relations, modeled by a graph neural network. This allows objects to be discovered from raw pixel observations without direct supervision as part of the learning process. We evaluate C-SWMs on compositional environments involving multiple interacting objects that can be manipulated independently by an agent, simple Atari games, and a multi-object physics simulation. Our experiments demonstrate that C-SWMs can overcome limitations of models based on pixel reconstruction and outperform typical representatives of this model class in highly structured environments, while learning interpretable object-based representations.}, added-at = {2019-12-21T00:25:46.000+0100}, author = {Kipf, Thomas and van der Pol, Elise and Welling, Max}, biburl = {https://www.bibsonomy.org/bibtex/22dfa6f17b81f337b5c7baa2e531ce647/kirk86}, description = {[1911.12247] Contrastive Learning of Structured World Models}, interhash = {83a78a97ee8898725a508a932eab634b}, intrahash = {2dfa6f17b81f337b5c7baa2e531ce647}, keywords = {graphs iclr2020 probability}, note = {cite arxiv:1911.12247}, timestamp = {2019-12-21T00:25:46.000+0100}, title = {Contrastive Learning of Structured World Models}, url = {http://arxiv.org/abs/1911.12247}, year = 2019 }