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Hamiltonian Generative Networks

Aleksandar Botev, Irina Higgins, Andrew Jaegle, Sebastian Racaniere, Danilo Jimenez Rezende, Péter Tóth

2020International Conference on Learning Representations56 citations

Abstract

The Hamiltonian formalism plays a central role in classical and quantum physics. Hamiltonians are the main tool for modelling the continuous time evolution of systems with conserved quantities, and they come equipped with many useful properties, like time reversibility and smooth interpolation in time. These properties are important for many machine learning problems - from sequence prediction to reinforcement learning and density modelling - but are not typically provided out of the box by standard tools such as recurrent neural networks. In this paper, we introduce the Hamiltonian Generative Network (HGN), the first approach capable of consistently learning Hamiltonian dynamics from high-dimensional observations (such as images) without restrictive domain assumptions. Once trained, we can use HGN to sample new trajectories, perform rollouts both forward and backward in time, and even speed up or slow down the learned dynamics. We demonstrate how a simple modification of the network architecture turns HGN into a powerful normalising flow model, called Neural Hamiltonian Flow (NHF), that uses Hamiltonian dynamics to model expressive densities. Hence, we hope that our work serves as a first practical demonstration of the value that the Hamiltonian formalism can bring to machine learning. More results and video evaluations are available at: http://tiny.cc/hgn

Topics & Concepts

Hamiltonian (control theory)Computer scienceGenerative grammarReinforcement learningArtificial neural networkHamiltonian mechanicsQuantumFormalism (music)Artificial intelligenceGenerative modelStatistical physicsTheoretical computer scienceMachine learningMathematicsPhysicsMathematical optimizationQuantum mechanicsVisual artsArtMusicalPhase spaceModel Reduction and Neural NetworksGenerative Adversarial Networks and Image SynthesisTime Series Analysis and Forecasting
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