English

Gradient Matching for Domain Generalization

Machine Learning 2021-07-15 v3 Machine Learning

Abstract

Machine learning systems typically assume that the distributions of training and test sets match closely. However, a critical requirement of such systems in the real world is their ability to generalize to unseen domains. Here, we propose an inter-domain gradient matching objective that targets domain generalization by maximizing the inner product between gradients from different domains. Since direct optimization of the gradient inner product can be computationally prohibitive -- requires computation of second-order derivatives -- we derive a simpler first-order algorithm named Fish that approximates its optimization. We demonstrate the efficacy of Fish on 6 datasets from the Wilds benchmark, which captures distribution shift across a diverse range of modalities. Our method produces competitive results on these datasets and surpasses all baselines on 4 of them. We perform experiments on both the Wilds benchmark, which captures distribution shift in the real world, as well as datasets in DomainBed benchmark that focuses more on synthetic-to-real transfer. Our method produces competitive results on both benchmarks, demonstrating its effectiveness across a wide range of domain generalization tasks.

Keywords

Cite

@article{arxiv.2104.09937,
  title  = {Gradient Matching for Domain Generalization},
  author = {Yuge Shi and Jeffrey Seely and Philip H. S. Torr and N. Siddharth and Awni Hannun and Nicolas Usunier and Gabriel Synnaeve},
  journal= {arXiv preprint arXiv:2104.09937},
  year   = {2021}
}
R2 v1 2026-06-24T01:21:58.871Z