Timezone: »
Rethinking Neural Relational Inference for Granger Causal Discovery
Stefanos Bennett · Rose Yu
Event URL: https://openreview.net/forum?id=H7Ry_U0MjV »
Granger causal discovery aims to infer the underlying Granger causal relationships between pairs of variables in a multivariate time series system. Recent work has proposed using Neural Relational Inference (NRI) -- a latent graph inference model -- for Granger causal discovery. However, the conditions under which NRI succeeds in recovering the true Granger causal graph remain unknown. In this work we show how the mean field approximation inherent in NRI has significant implications for its ability to recover the Granger causal structure in multivariate time series. We illustrate this point theoretically and experimentally using a linear vector autoregressive model -- an important benchmark in economic and financial studies.
Author Information
Stefanos Bennett (University of Oxford)
Rose Yu (UC San Diego)
More from the Same Authors
-
2020 : Paper 60: Traffic Forecasting using Vehicle-to-Vehicle Communication and Recurrent Neural Networks »
Rose Yu -
2022 : A Noether's theorem for gradient flow: Continuous symmetries of the architecture and conserved quantities of gradient flow »
Bo Zhao · Iordan Ganev · Robin Walters · Rose Yu · Nima Dehmamy -
2022 : Charting Flat Minima Using the Conserved Quantities of Gradient Flow »
Bo Zhao · Iordan Ganev · Robin Walters · Rose Yu · Nima Dehmamy -
2022 : Rose Yu: "Physics-Guided Deep Learning for Climate Science" »
Rose Yu -
2022 : Keynote Talk 2 »
Rose Yu -
2022 : Panel Discussion I: Geometric and topological principles for representation learning in ML »
Irina Higgins · Taco Cohen · Erik Bekkers · Nina Miolane · Rose Yu -
2022 Poster: Meta-Learning Dynamics Forecasting Using Task Inference »
Rui Wang · Robin Walters · Rose Yu -
2022 Poster: Symmetry Teleportation for Accelerated Optimization »
Bo Zhao · Nima Dehmamy · Robin Walters · Rose Yu -
2021 : Physics-Guided AI for Modeling Autonomous Vehicle Dynamics »
Rose Yu · Rose Yu -
2020 : Q/A and Discussion for ML Theory Session »
Karthik Kashinath · Mayur Mudigonda · Stephan Mandt · Rose Yu -
2020 : Rose Yu »
Rose Yu -
2020 : Rose Yu - Physics-Guided AI for Learning Spatiotemporal Dynamics »
Rose Yu -
2020 Workshop: Machine Learning for Engineering Modeling, Simulation and Design »
Alex Beatson · Priya Donti · Amira Abdel-Rahman · Stephan Hoyer · Rose Yu · J. Zico Kolter · Ryan Adams -
2020 : Invited Talk 11 Q&A by Rose »
Rose Yu -
2020 : Invited Talk 11: Tensor Methods for Efficient and Interpretable Spatiotemporal Learning »
Rose Yu -
2020 : Quantifying Uncertainty in Deep Spatiotemporal Forecasting for COVID-19 »
Yian Ma · Rose Yu -
2020 Poster: Deep Imitation Learning for Bimanual Robotic Manipulation »
Fan Xie · Alexander Chowdhury · M. Clara De Paolis Kaluza · Linfeng Zhao · Lawson Wong · Rose Yu -
2020 Poster: Learning Disentangled Representations of Videos with Missing Data »
Armand Comas · Chi Zhang · Zlatan Feric · Octavia Camps · Rose Yu -
2020 Session: Orals & Spotlights Track 06: Dynamical Sys/Density/Sparsity »
Animesh Garg · Rose Yu -
2018 : Long Range Sequence Generation via Multiresolution Adversarial Training »
Rose Yu