最小熵原理引导图神经网络

Proceedings of the Sixteenth ACM International Conference on Web Search and Data Mining Pub Date : 2023-02-27 DOI:10.1145/3539597.3570467

Zhenyu Yang, Ge Zhang, Jia Wu, Jian Yang, Quan.Z Sheng, Hao Peng, Ang Li, Shan Xue, Jianlin Su

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引用次数: 5

摘要

图神经网络(gnn)是目前挖掘图结构数据和学习低维节点和图级嵌入以服务于下游任务的主流方法。然而，受深度神经网络存在的可解释性瓶颈的限制，现有的gnn忽略了估计嵌入的适当维数的问题。因此，我们提出了一个新的框架，称为最小图熵原理指导的维估计，即MGEDE，它为节点和图表示学习适当的嵌入维数。在节点级估计方面，计算结构和属性熵的最小熵函数评估适当数量的维度。在图级估计方面，基于估计的节点级嵌入维数，从候选集中为每个图分配自定义的嵌入维数。节点和图分类任务和9个基准数据集的综合实验验证了MGEDE的有效性和泛化性。

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Minimum Entropy Principle Guided Graph Neural Networks

Graph neural networks (GNNs) are now the mainstream method for mining graph-structured data and learning low-dimensional node- and graph-level embeddings to serve downstream tasks. However, limited by the bottleneck of interpretability that deep neural networks present, existing GNNs have ignored the issue of estimating the appropriate number of dimensions for the embeddings. Hence, we propose a novel framework called Minimum Graph Entropy principle-guided Dimension Estimation, i.e. MGEDE, that learns the appropriate embedding dimensions for both node and graph representations. In terms of node-level estimation, a minimum entropy function that counts both structure and attribute entropy, appraises the appropriate number of dimensions. In terms of graph-level estimation, each graph is assigned a customized embedding dimension from a candidate set based on the number of dimensions estimated for the node-level embeddings. Comprehensive experiments with node and graph classification tasks and nine benchmark datasets verify the effectiveness and generalizability of MGEDE.

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

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