Learning to Correspond Dynamical Systems

Nam Hee Kim, Zhaoming Xie, Michiel Panne

L4DC 2020 pp. 105-117

/l4dc/2020/kim2020l4dc-learning/

Abstract

Many dynamical systems exhibit similar structure, as often captured by hand-designed simplified models that can be used for analysis and control. We develop a method for learning to correspond pairs of dynamical systems via a learned latent dynamical system. Given trajectory data from two dynamical systems, we learn a shared latent state space and a shared latent dynamics model, along with an encoder-decoder pair for each of the original systems. With the learned correspondences in place, we can use a simulation of one system to produce an imagined motion of its counterpart. We can also simulate in the learned latent dynamics and synthesize the motions of both corresponding systems, as a form of bisimulation. We demonstrate the approach using pairs of controlled bipedal walkers, as well as by pairing a walker with a controlled pendulum.

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Text

Kim et al. "Learning to Correspond Dynamical Systems." Proceedings of the 2nd Conference on Learning for Dynamics and Control, 2020.

Markdown

[Kim et al. "Learning to Correspond Dynamical Systems." Proceedings of the 2nd Conference on Learning for Dynamics and Control, 2020.](https://mlanthology.org/l4dc/2020/kim2020l4dc-learning/)

BibTeX

@inproceedings{kim2020l4dc-learning,
  title     = {{Learning to Correspond Dynamical Systems}},
  author    = {Kim, Nam Hee and Xie, Zhaoming and Panne, Michiel},
  booktitle = {Proceedings of the 2nd Conference on Learning for Dynamics and Control},
  year      = {2020},
  pages     = {105-117},
  volume    = {120},
  url       = {https://mlanthology.org/l4dc/2020/kim2020l4dc-learning/}
}