English

Subgraph Pooling: Tackling Negative Transfer on Graphs

Machine Learning 2024-05-07 v2 Artificial Intelligence Social and Information Networks

Abstract

Transfer learning aims to enhance performance on a target task by using knowledge from related tasks. However, when the source and target tasks are not closely aligned, it can lead to reduced performance, known as negative transfer. Unlike in image or text data, we find that negative transfer could commonly occur in graph-structured data, even when source and target graphs have semantic similarities. Specifically, we identify that structural differences significantly amplify the dissimilarities in the node embeddings across graphs. To mitigate this, we bring a new insight in this paper: for semantically similar graphs, although structural differences lead to significant distribution shift in node embeddings, their impact on subgraph embeddings could be marginal. Building on this insight, we introduce Subgraph Pooling (SP) by aggregating nodes sampled from a k-hop neighborhood and Subgraph Pooling++ (SP++) by a random walk, to mitigate the impact of graph structural differences on knowledge transfer. We theoretically analyze the role of SP in reducing graph discrepancy and conduct extensive experiments to evaluate its superiority under various settings. The proposed SP methods are effective yet elegant, which can be easily applied on top of any backbone Graph Neural Networks (GNNs). Our code and data are available at: https://github.com/Zehong-Wang/Subgraph-Pooling.

Keywords

Cite

@article{arxiv.2402.08907,
  title  = {Subgraph Pooling: Tackling Negative Transfer on Graphs},
  author = {Zehong Wang and Zheyuan Zhang and Chuxu Zhang and Yanfang Ye},
  journal= {arXiv preprint arXiv:2402.08907},
  year   = {2024}
}

Comments

Accepted by IJCAI 24

R2 v1 2026-06-28T14:48:02.334Z