Joint Embedding of Meta-Path and Meta-Graph for Heterogeneous Information Networks

2018 IEEE International Conference on Big Knowledge (ICBK) Pub Date : 2018-09-11 DOI:10.1109/ICBK.2018.00025

Lichao Sun, Lifang He, Zhipeng Huang, Bokai Cao, Congying Xia, Xiaokai Wei, Philip S. Yu

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引用次数: 24

Abstract

Meta-graph is currently the most powerful tool for similarity search on heterogeneous information networks, where a meta-graph is a composition of meta-paths that captures the complex structural information. However, current relevance computing based on meta-graph only considers the complex structural information, but ignores its embedded meta-paths information. To address this problem, we proposeMEta-GrAph-based network embedding models, called MEGA and MEGA++, respectively. The MEGA model uses normalized relevance or similarity measures that are derived from a meta-graph and its embedded meta-paths between nodes simultaneously, and then leverages tensor decomposition method to perform node embedding. The MEGA++ further facilitates the use of coupled tensor-matrix decomposition method to obtain a joint embedding for nodes, which simultaneously considers the hidden relations of all meta information of a meta-graph. Extensive experiments on two real datasets demonstrate that MEGA and MEGA++ are more effective than state-of-the-art approaches.

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异构信息网络中元路径与元图的联合嵌入

元图是目前异构信息网络中最强大的相似性搜索工具，其中元图是捕获复杂结构信息的元路径的组合。然而，目前基于元图的关联计算只考虑了复杂的结构信息，而忽略了其嵌入的元路径信息。为了解决这个问题，我们提出了基于eta - graph的网络嵌入模型，分别称为MEGA和MEGA++。MEGA模型使用标准化的相关性或相似性度量，这些度量来源于元图及其节点之间嵌入的元路径，然后利用张量分解方法进行节点嵌入。mega++进一步促进了使用耦合张量-矩阵分解方法获得节点的联合嵌入，该方法同时考虑了元图中所有元信息的隐藏关系。在两个真实数据集上进行的大量实验表明，MEGA和MEGA++比最先进的方法更有效。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2018 IEEE International Conference on Big Knowledge (ICBK)

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