Message passing method for social contagion in hypergraphs

doi:10.1088/1674-1056/ae5c73

中国物理B ›› 2026, Vol. 35 ›› Issue (5): 56403-056403.doi: 10.1088/1674-1056/ae5c73

Message passing method for social contagion in hypergraphs

Hui Leng(冷卉)^1,†, Zhao-Yan Wu(吴召艳)², and Rong Wang(王荣)¹¹

1 School of Applied Mathematics, Shanxi University of Finance and Economics, Taiyuan 030006, China;
2 School of Mathematics and Statistics, Jiangxi Normal University, Nanchang 330022, China

收稿日期:2026-01-05 修回日期:2026-03-23 接受日期:2026-04-08 发布日期:2026-04-29
通讯作者: Hui Leng,E-mail:huileng@sxufe.edu.cn E-mail:huileng@sxufe.edu.cn
基金资助:
Project supported by the National Natural Science Foundation of China (Grant No. 61963019), Fundamental Research Program of Shanxi Province (Grant No. 202403021212007), Project of Shanxi Provincial Department of Education (Grant No. J20250117), and research funds of Shanxi University of Finance and Economics (Grant No. Z18428).

Message passing method for social contagion in hypergraphs

Hui Leng(冷卉)^1,†, Zhao-Yan Wu(吴召艳)², and Rong Wang(王荣)¹¹

1 School of Applied Mathematics, Shanxi University of Finance and Economics, Taiyuan 030006, China;
2 School of Mathematics and Statistics, Jiangxi Normal University, Nanchang 330022, China

Received:2026-01-05 Revised:2026-03-23 Accepted:2026-04-08 Published:2026-04-29
Contact: Hui Leng,E-mail:huileng@sxufe.edu.cn E-mail:huileng@sxufe.edu.cn
Supported by:
Project supported by the National Natural Science Foundation of China (Grant No. 61963019), Fundamental Research Program of Shanxi Province (Grant No. 202403021212007), Project of Shanxi Provincial Department of Education (Grant No. J20250117), and research funds of Shanxi University of Finance and Economics (Grant No. Z18428).

摘要/Abstract

摘要： The emergence of hypergraphs has solved the problem that the interactions between nodes are insufficient to describe the complex relationships among multiple individuals. In this paper, we model social contagion with the reinforcement effect on hypergraphs, where hyperedges disseminate information to nodes, and nodes upload information to hyperedges. In order to reduce the complexity of high-order interactions on the propagation, hypergraphs are mapped to factor graphs, where hyperedges are encoded to factor nodes, and the connection between a node and a factor node indicates that the node is located in the hyperedge. Taking into account the heterogeneity of nodes and hyperedges, we establish the message passing evolution equations about each node based on the factor graph. Finally, we carry out numerical simulations by iterating the message passing equations. We find that the probability of the adopted state decreases before the outbreak of social contagion, and the final adopting scale suddenly increases as the transmission rates increase, which are caused by the combined action of high-order interactions and the social reinforcement effect. Significantly, the final adopting scale presents a step-like variation when the adopting threshold of hyperedges changes.

关键词: social contagion, hypergraph, message passing method

Abstract: The emergence of hypergraphs has solved the problem that the interactions between nodes are insufficient to describe the complex relationships among multiple individuals. In this paper, we model social contagion with the reinforcement effect on hypergraphs, where hyperedges disseminate information to nodes, and nodes upload information to hyperedges. In order to reduce the complexity of high-order interactions on the propagation, hypergraphs are mapped to factor graphs, where hyperedges are encoded to factor nodes, and the connection between a node and a factor node indicates that the node is located in the hyperedge. Taking into account the heterogeneity of nodes and hyperedges, we establish the message passing evolution equations about each node based on the factor graph. Finally, we carry out numerical simulations by iterating the message passing equations. We find that the probability of the adopted state decreases before the outbreak of social contagion, and the final adopting scale suddenly increases as the transmission rates increase, which are caused by the combined action of high-order interactions and the social reinforcement effect. Significantly, the final adopting scale presents a step-like variation when the adopting threshold of hyperedges changes.

Key words: social contagion, hypergraph, message passing method

中图分类号: (Networks)

64.60.aq

87.23.Kg (Dynamics of evolution)

Hui Leng(冷卉), Zhao-Yan Wu(吴召艳), and Rong Wang(王荣). Message passing method for social contagion in hypergraphs[J]. 中国物理B, 2026, 35(5): 56403-056403.

Hui Leng(冷卉), Zhao-Yan Wu(吴召艳), and Rong Wang(王荣). Message passing method for social contagion in hypergraphs[J]. Chin. Phys. B, 2026, 35(5): 56403-056403.

[1]	Chong-Yang Wang(王重阳), Bi-Yun Ji(季碧芸), and Linyuan Lü(吕琳媛). Optimal synchronization of higher-order Kuramoto model on hypergraphs[J]. 中国物理B, 2025, 34(7): 70502-070502.
[2]	Yu-Hao Piao(朴宇豪), Jun-Yi Wang(王俊义), and Ke-Zan Li(李科赞). Identifying important nodes of hypergraph: An improved PageRank algorithm[J]. 中国物理B, 2025, 34(4): 48902-048902.
[3]	Li Liang(梁丽), Li-Yao Qi(齐丽瑶), and Shi-Cai Gong(龚世才). Identification of vital nodes based on global and local features in hypergraphs[J]. 中国物理B, 2025, 34(10): 108904-108904.
[4]	Fu-Zhong Nian(年福忠) and Yu Yang(杨宇). Effects of individual heterogeneity on social contagions[J]. 中国物理B, 2024, 33(5): 58705-058705.
[5]	He-Xiang Zheng(郑和翔), Shu-Yu Miao(苗书宇), and Chang-Gui Gu(顾长贵). A novel complex-high-order graph convolutional network paradigm: ChyGCN[J]. 中国物理B, 2024, 33(5): 58401-058401.
[6]	Dan-Dan Zhao(赵丹丹), Wang-Xin Peng(彭王鑫), Hao Peng(彭浩), and Wei Wang(王伟). Effects of heterogeneous adoption thresholds on contact-limited social contagions[J]. 中国物理B, 2022, 31(6): 68906-068906.

Message passing method for social contagion in hypergraphs

Message passing method for social contagion in hypergraphs

PDF (PC)

赞

可视化

摘要/Abstract

引用本文

使用本文

参考文献

相关文章 6

Metrics

本文评价

推荐阅读 0