AG-Meta: Adaptive graph meta-learning via representation consistency over local subgraphs

计算机科学 图形 特征学习 杠杆(统计) 分类器(UML) 机器学习 人工智能 理论计算机科学
作者
Yi Wang,Changqin Huang,Ming Li,Qionghao Huang,Xuemei Wu,Jia Wu
出处
期刊:Pattern Recognition [Elsevier BV]
卷期号:151: 110387-110387 被引量:4
标识
DOI:10.1016/j.patcog.2024.110387
摘要

Graph meta-learning has recently received significantly increased attention by virtue of its potential to extract common and transferable knowledge from learning different tasks on a graph. Existing methods for graph meta-learning usually leverage local subgraphs to transfer subgraph-specific information. However, they inherently face the challenge of imbalanced subgraphs due to inconsistent node density and different label distributions over local subgraphs. This paper proposes an adaptive graph meta-learning framework (AG-Meta) for learning the consistent and transferable representation of a graph in a way that can adapt to imbalanced subgraphs. Specifically, AG-Meta first learns the structural representation of subgraphs with various degrees using an Adaptive Graph Cascade Diffusion Network (AGCDN). AG-Meta then employs a prototype-consistency classifier to produce more accurate transferable inductive representations (also called prototypes) under few-shot settings with different label distributions of a subgraph. In the context of optimizing a model-agnostic meta-learner, a novel metric loss is finally introduced to achieve structural representation and prototype consistency. Extensive experiments are conducted to compare AG-Meta against baselines on five real-world networks, which validates that AG-Meta outperforms the state-of-the-art approaches.

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