PDE-Driven Spatiotemporal Disentanglement
Abstract
A recent line of work in the machine learning community addresses the problem of predicting high-dimensional spatiotemporal phenomena by leveraging specific tools from the differential equations theory. Following this direction, we propose in this article a novel and general paradigm for this task based on a resolution method for partial differential equations: the separation of variables. This inspiration allows us to introduce a dynamical interpretation of spatiotemporal disentanglement. It induces a principled model based on learning disentangled spatial and temporal representations of a phenomenon to accurately predict future observations. We experimentally demonstrate the performance and broad applicability of our method against prior state-of-the-art models on physical and synthetic video datasets.
Cite
@article{arxiv.2008.01352,
title = {PDE-Driven Spatiotemporal Disentanglement},
author = {Jérémie Donà and Jean-Yves Franceschi and Sylvain Lamprier and Patrick Gallinari},
journal= {arXiv preprint arXiv:2008.01352},
year = {2021}
}