半跳:一种降低消息传递速度的图形上采样方法

Mehdi Azabou, Venkataraman Ganesh, Shantanu Thakoor, Chi-Heng Lin, Lakshmi Sathidevi, Ran Liu, M. Vaĺko, Petar Velickovic, Eva L. Dyer
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引用次数: 1

摘要

消息传递神经网络在图结构数据方面取得了很大的成功。然而,在许多情况下,当相邻节点属于不同的类时,消息传递可能会导致过度平滑或失败。在这项工作中,我们介绍了一个简单而通用的框架,用于改进消息传递神经网络的学习。我们的方法通过在每条边上添加“慢节点”来对原始图中的边进行上采样,这些节点可以调解源节点和目标节点之间的通信。我们的方法只修改输入图,使其即插即用,并且易于与现有模型一起使用。为了理解减缓信息传递的好处,我们提供了理论和实证分析。我们报告了几个监督和自监督基准的结果,并显示了全面的改进,特别是在相邻节点更有可能具有不同标签的异亲条件下。最后,我们展示了如何使用我们的方法来生成自监督学习的增强,其中将慢节点随机引入图中的不同边,以生成具有可变路径长度的多尺度视图。
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Half-Hop: A graph upsampling approach for slowing down message passing
Message passing neural networks have shown a lot of success on graph-structured data. However, there are many instances where message passing can lead to over-smoothing or fail when neighboring nodes belong to different classes. In this work, we introduce a simple yet general framework for improving learning in message passing neural networks. Our approach essentially upsamples edges in the original graph by adding "slow nodes" at each edge that can mediate communication between a source and a target node. Our method only modifies the input graph, making it plug-and-play and easy to use with existing models. To understand the benefits of slowing down message passing, we provide theoretical and empirical analyses. We report results on several supervised and self-supervised benchmarks, and show improvements across the board, notably in heterophilic conditions where adjacent nodes are more likely to have different labels. Finally, we show how our approach can be used to generate augmentations for self-supervised learning, where slow nodes are randomly introduced into different edges in the graph to generate multi-scale views with variable path lengths.
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