On the Effects of Similarity Metrics in Decentralized Deep Learning Under Distribution Shift
Abstract
Decentralized Learning (DL) enables privacy-preserving collaboration among organizations or users to enhance the performance of local deep learning models. However, model aggregation becomes challenging when client data is heterogeneous, and identifying compatible collaborators without direct data exchange remains a pressing issue. In this paper, we investigate the effectiveness of various similarity metrics in DL for identifying peers for model merging, conducting an empirical analysis across multiple datasets with distribution shifts. Our research provides insights into the performance of these metrics, examining their role in facilitating effective collaboration. By exploring the strengths and limitations of these metrics, we contribute to the development of robust DL methods.
Cite
Text
Zec et al. "On the Effects of Similarity Metrics in Decentralized Deep Learning Under Distribution Shift." Transactions on Machine Learning Research, 2025.Markdown
[Zec et al. "On the Effects of Similarity Metrics in Decentralized Deep Learning Under Distribution Shift." Transactions on Machine Learning Research, 2025.](https://mlanthology.org/tmlr/2025/zec2025tmlr-effects/)BibTeX
@article{zec2025tmlr-effects,
title = {{On the Effects of Similarity Metrics in Decentralized Deep Learning Under Distribution Shift}},
author = {Zec, Edvin Listo and Hagander, Tom and Ihre-Thomason, Eric and Girdzijauskas, Sarunas},
journal = {Transactions on Machine Learning Research},
year = {2025},
url = {https://mlanthology.org/tmlr/2025/zec2025tmlr-effects/}
}