Traffic4cast at NeurIPS 2021-Temporal and Spatial Few-Shot Transfer Learning in Gridded Geo-Spatial Processes
Published in NeurIPS 2021 Competitions and Demonstrations Track, 2022
Abstract— The IARAI Traffic4cast competitions at NeurIPS 2019 and 2020 showed that neural networks can successfully predict future traffic conditions 1 hour into the future on simply aggregated GPS probe data in time and space bins. We thus reinterpreted the challenge of forecasting traffic conditions as a movie completion task. U-Nets proved to be the winning architecture, demonstrating an ability to extract relevant features in this complex real-world geo-spatial process. Building on the previous competitions, Traffic4cast 2021 now focuses on the question of model robustness and generalizability across time and space. Moving from one city to an entirely different city, or moving from pre-COVID times to times after COVID hit the world thus introduces a clear domain shift. We thus, for the first time, release data featuring such domain shifts. The competition now covers ten cities over 2 years, providing data compiled from over 1012 GPS probe data. Winning solutions captured traffic dynamics sufficiently well to even cope with these complex domain shifts. Surprisingly, this seemed to require only the previous 1h traffic dynamic history and static road graph as input.
Cited as:
@inproceedings{eichenberger2022traffic4cast,
title={Traffic4cast at NeurIPS 2021-Temporal and Spatial Few-Shot Transfer Learning in Gridded Geo-Spatial Processes},
author={Eichenberger, Christian and Neun, Moritz and Martin, Henry and Herruzo, Pedro and Spanring, Markus and Lu, Yichao and Choi, Sungbin and Konyakhin, Vsevolod and Lukashina, Nina and Shpilman, Aleksei and others},
booktitle={NeurIPS 2021 Competitions and Demonstrations Track},
pages={97--112},
year={2022},
organization={PMLR}
}