HetFS:一种在异构信息网络上利用特设元路径进行快速相似性搜索的方法

Xuqi Mao, Zhenyi Chen, Zhenying He, Yinan Jing, Kai Zhang, X. Sean Wang
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引用次数: 0

摘要

现实世界中的许多信息网络构成了异构信息网络(HINs),不同的对象和关系在异构图中表示为节点和边。节点之间的相似性量化了两个节点之间的相似程度,主要取决于它们所连接的节点的相似性,递归计算。用户可能只对相似性定义中特定类型的连接感兴趣,这些连接表现为元路径,即节点和边类型的序列。现有的基于异构图神经网络(HGNN)的相似性搜索方法可以容纳元路径,但需要针对不同的元路径进行重新训练。相反,现有的基于路径的相似性搜索方法可以在元路径之间灵活切换,但由于只依赖路径信息,往往准确率较低。本文提出的 HetFS 是一种快速相似性方法,用于在异构信息网络上使用用户给定的元路径进行临时查询。HetFS 基于满足元路径限制的路径信息以及节点内容提供相似性结果。广泛的实验证明了 HetFS 在处理临时查询方面的有效性和效率,其性能优于最先进的 HGNN 和基于路径的方法,并在下游应用(包括链接预测、节点分类和聚类)中表现出强劲的性能。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

HetFS: a method for fast similarity search with ad-hoc meta-paths on heterogeneous information networks

HetFS: a method for fast similarity search with ad-hoc meta-paths on heterogeneous information networks

Numerous real-world information networks form Heterogeneous Information Networks (HINs) with diverse objects and relations represented as nodes and edges in heterogeneous graphs. Similarity between nodes quantifies how closely two nodes resemble each other, mainly depending on the similarity of the nodes they are connected to, recursively. Users may be interested in only specific types of connections in the similarity definition, represented as meta-paths, i.e., a sequence of node and edge types. Existing Heterogeneous Graph Neural Network (HGNN)-based similarity search methods may accommodate meta-paths, but require retraining for different meta-paths. Conversely, existing path-based similarity search methods may switch flexibly between meta-paths but often suffer from lower accuracy, as they rely solely on path information. This paper proposes HetFS, a Fast Similarity method for ad-hoc queries with user-given meta-paths on Heterogeneous information networks. HetFS provides similarity results based on path information that satisfies the meta-path restriction, as well as node content. Extensive experiments demonstrate the effectiveness and efficiency of HetFS in addressing ad-hoc queries, outperforming state-of-the-art HGNNs and path-based approaches, and showing strong performance in downstream applications, including link prediction, node classification, and clustering.

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