Publication Type

Conference Proceeding Article

Version

acceptedVersion

Publication Date

12-2020

Abstract

Attributed network embedding aims to learn representations of nodes and their attributes in a low-dimensional space that preserves their semantics. The existing embedding models, however, consider node connectivity and node attributes only while ignoring external knowledge that can enhance node representations for downstream applications. In this paper, we propose a set of new VAE-based embedding models called External Knowledge-Aware Co-Embedding Attributed Network (ECAN) Embeddings to incorporate associations among attributes from relevant external knowledge. Such external knowledge can be extracted from text corpus and knowledge graphs. We use multi-VAE structures to model the attribute associations. To cope with joint encoding of attribute semantics from different sources, we introduce a mixed model variant which has a twolayer encoder structure. Our experiments on three real-world datasets show that ECAN out-performs previous approaches in both node classification and link prediction tasks.

Keywords

Attributed Networks, Network Embedding, Knowledge Graph

Discipline

Computer Sciences | Databases and Information Systems

Research Areas

Data Science and Engineering

Publication

IEEE Big Data 2020 - IEEE International Conference on Big Data, 10 - 13 Dec, 2020

Publisher

IEEE

Embargo Period

2-3-2021

Copyright Owner and License

LARC

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