Learning Trajectories of Hamiltonian Systems with Neural Networks
Abstract
Hamiltonian neural networks are enhanced with a continuous-time trajectory estimation method using additional neural networks to improve performance with low sampling rates and noisy observations.
Modeling of conservative systems with neural networks is an area of active research. A popular approach is to use Hamiltonian neural networks (HNNs) which rely on the assumptions that a conservative system is described with Hamilton's equations of motion. Many recent works focus on improving the integration schemes used when training HNNs. In this work, we propose to enhance HNNs with an estimation of a continuous-time trajectory of the modeled system using an additional neural network, called a deep hidden physics model in the literature. We demonstrate that the proposed integration scheme works well for HNNs, especially with low sampling rates, noisy and irregular observations.
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