动态网络中的少射链路预测

Proceedings of the Fifteenth ACM International Conference on Web Search and Data Mining Pub Date : 2022-02-11 DOI:10.1145/3488560.3498417

Cheng Yang, Chuncheng Wang, Yuanfu Lu, Xumeng Gong, Chuan Shi, Wei Wang, Xu Zhang

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引用次数: 23

摘要

动态链路预测是网络科学中的一个重要问题，它旨在预测动态网络中节点的未来边缘，具有广泛的现实应用。动态网络的一个关键特性是，随着时间的推移，新的节点和链接不断出现，而这些新节点通常在到达时只有几个链接。然而，如何预测动态网络中这些少射节点的未来连接还没有得到很好的研究。现有的动态网络表示学习方法没有专门针对少量场景，因此会导致性能不佳。在本文中，我们提出了一种基于元学习框架的新模型，称为MetaDyGNN，用于动态网络中的少射链路预测。具体来说，我们提出了一个具有分层时间间隔和节点智能适应的元学习器，以提取该问题背后的一般知识。我们还设计了一个简单有效的动态图神经网络(GNN)模块来表征元学习任务中每个节点的局部结构。因此，学习到的一般知识用作模型初始化，并且可以通过仅在少数链接上进行微调过程来快速适应新节点。实验结果表明，我们提出的MetaDyGNN在三个公开可用的数据集上显著优于最先进的方法。

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Few-shot Link Prediction in Dynamic Networks

Dynamic link prediction, which aims at forecasting future edges of a node in a dynamic network, is an important problem in network science and has a wide range of real-world applications. A key property of dynamic networks is that new nodes and links keep coming over time and these new nodes usually have only a few links at their arrivals. However, how to predict future links for these few-shot nodes in a dynamic network has not been well studied. Existing dynamic network representation learning methods were not specialized for few-shot scenarios and thus would lead to suboptimal performances. In this paper, we propose a novel model based on a meta-learning framework, dubbed as MetaDyGNN, for few-shot link prediction in dynamic networks. Specifically, we propose a meta-learner with hierarchical time interval-wise and node-wise adaptions to extract general knowledge behind this problem. We also design a simple and effective dynamic graph neural network (GNN) module to characterize the local structure of each node in meta-learning tasks. As a result, the learned general knowledge serves as model initializations, and can quickly adapt to new nodes with a fine-tuning process on only a few links. Experimental results show that our proposed MetaDyGNN significantly outperforms state-of-the-art methods on three publicly available datasets.

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Proceedings of the Fifteenth ACM International Conference on Web Search and Data Mining

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