Abstract
Network embedding methods aim at learning low-dimensional latent representation of nodes in a network. While achieving competitive performance on a variety of network inference tasks such as node classification and link prediction, these methods treat the relations between nodes as a binary variable and ignore the rich semantics of edges. In this work, we attempt to learn network embeddings which simultaneously preserve network structure and relations between nodes. Experiments on several real-world networks illustrate that by considering different relations between different node pairs, our method is capable of producing node embeddings of higher quality than a number of state-of-the-art network embedding methods, as evaluated on a challenging multi-label node classification task.
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CITATION STYLE
Chen, H., Perozzi, B., Sun, X., Chen, M., Tian, Y., & Skiena, S. (2018). Enhanced network embeddings via exploiting edge labels. In International Conference on Information and Knowledge Management, Proceedings (pp. 1579–1582). Association for Computing Machinery. https://doi.org/10.1145/3269206.3269270
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