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Trustworthiness-Driven Graph Convolutional Networks for Signed Network Embedding

Authors
Kim, Min-JeongLee, Yeon-ChangKang, David Y.Kim, Sang-Wook
Issue Date
Nov-2024
Publisher
Special Interest Group on Computer Graphics, Association for Computing Machinery
Keywords
balance theory; signed networks; trustworthy graph convolutional networks
Citation
ACM Transactions on Knowledge Discovery from Data, v.18, no.9, pp 1 - 26
Pages
26
Indexed
SCIE
SCOPUS
Journal Title
ACM Transactions on Knowledge Discovery from Data
Volume
18
Number
9
Start Page
1
End Page
26
URI
https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/199759
DOI
10.1145/3685279
ISSN
1556-4681
1556-472X
Abstract
The problem of representing nodes in a signed network as low-dimensional vectors, known as signed network embedding (SNE), has garnered considerable attention in recent years. While several SNE methods based on graph convolutional networks (GCNs) have been proposed for this problem, we point out that they significantly rely on the assumption that the decades-old balance theory always holds in the real-world. To address this limitation, we propose a novel GCN-based SNE approach, named as TrustSGCN, which corrects for incorrect embedding propagation in GCN by utilizing the trustworthiness on edge signs for high-order relationships inferred by the balance theory. The proposed approach consists of three modules: (M1) generation of each node's extended ego-network; (M2) measurement of trustworthiness on edge signs; and (M3) trustworthiness-Aware propagation of embeddings. Specifically, TrustSGCN leverages topological information to measure trustworthiness on edge sign for high-order relationships inferred by balance theory. It then considers structural properties inherent to an input network, such as the ratio of triads, to correct for incorrect embedding propagation. Furthermore, TrustSGCN learns the node embeddings by leveraging two well-known social theories, i.e., balance and status, to jointly preserve the edge sign and direction between nodes connected by existing edges in the embedding space. The experiments on six real-world signed network datasets demonstrate that TrustSGCN consistently outperforms six state-of-The-Art GCN-based SNE methods. The code is available at https://github.com/kmj0792/TrustSGCN.
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