Web: http://arxiv.org/abs/2010.04456

May 11, 2022, 1:10 a.m. | Yuan Yin, Vincent Le Guen, Jérémie Dona, Emmanuel de Bézenac, Ibrahim Ayed, Nicolas Thome, Patrick Gallinari

cs.CV updates on arXiv.org arxiv.org

Forecasting complex dynamical phenomena in settings where only partial
knowledge of their dynamics is available is a prevalent problem across various
scientific fields. While purely data-driven approaches are arguably
insufficient in this context, standard physical modeling based approaches tend
to be over-simplistic, inducing non-negligible errors. In this work, we
introduce the APHYNITY framework, a principled approach for augmenting
incomplete physical dynamics described by differential equations with deep
data-driven models. It consists in decomposing the dynamics into two
components: a physical …

arxiv deep dynamics forecasting ml models networks

More from arxiv.org / cs.CV updates on arXiv.org

Data Analyst, Patagonia Action Works

@ Patagonia | Remote

Data & Insights Strategy & Innovation General Manager

@ Chevron Services Company, a division of Chevron U.S.A Inc. | Houston, TX

Faculty members in Research areas such as Bayesian and Spatial Statistics; Data Privacy and Security; AI/ML; NLP; Image and Video Data Analysis

@ Ahmedabad University | Ahmedabad, India

Director, Applied Mathematics & Computational Research Division

@ Lawrence Berkeley National Lab | Berkeley, Ca

Business Data Analyst

@ MainStreet Family Care | Birmingham, AL

Assistant/Associate Professor of the Practice in Business Analytics

@ Georgetown University McDonough School of Business | Washington DC