|
|
Hypergraph-Based Rumor Detection Model Integrating User Propagation Bias Information |
Peng Jingjie,Gu Yijun(),Zhang Lanze |
College of Information and Cyber Security, People’s Public Security University of China, Beijing 100038, China |
|
|
Abstract [Objective] This paper aims to construct a tweet interaction hypergraph-based rumor detection model that integrates user propagation bias information to improve the accuracy of rumor detection. [Methods] A rumor detection model named UPBI_HGRD is proposed. The model integrates the user propagation bias information when obtaining the tweet node embedding representation, and constructs hyperedges based on user IDs to form a hypergraph that can reflect the interactive relationship of tweets. In addition, this paper proposes a tweet node-user hyperedge level multi-layer dual-level multi-head attention mechanism to focus on important tweet relationships, so as to effectively learn the embedding representation of nodes, and finally input it into a classifier to judge whether it is a rumor or not. [Results] The experimental results on three publicly available datasets show that the accuracy of the model reaches 94.57%, 97.82% and 94.76%, respectively, which is better than the existing baseline model, and has an excellent performance in early detection of rumors, which proves the effectiveness of the model. [Limitations] The limitation of the model in this paper is that the process of obtaining the tweet embedding representation that integrates the user propagation bias information and constructing the hypergraph has a certain time overhead. In the future, further research will be done to improve the time efficiency of the model. [Conclusions] The proposed method effectively improves the accuracy of rumor detection and provides a novel approach to identifying online rumors.
|
Received: 07 June 2023
Published: 08 January 2024
|
|
Fund:Double First-Class Innovation Research Project for People’s Public Security University of China(2023SYL07) |
Corresponding Authors:
Gu Yijun,E-mail:guyijun@ppsuc.edu.cn。
|
[1] |
Chandra S, Mishra P, Yannakoudakis H, et al. Graph-Based Modeling of Online Communities for Fake News Detection[OL]. arXiv Preprint, arXiv: 2008.06274.
|
[2] |
Zhou X Y, Wu J D, Zafarani R. SAFE: Similarity-Aware Multi-modal Fake News Detection[C]// Proceedings of Pacific-Asia Conference on Knowledge Discovery and Data Mining. 2020: 354-367.
|
[3] |
Kaliyar R K, Goswami A, Narang P. FakeBERT: Fake News Detection in Social Media with a BERT-Based Deep Learning Approach[J]. Multimedia Tools and Applications, 2021, 80(8): 11765-11788.
|
[4] |
Zhang Y, Wallace B. A Sensitivity Analysis of (and Practitioners’ Guide to) Convolutional Neural Networks for Sentence Classification[OL]. arXiv Preprint, arXiv:1510.03820.
|
[5] |
Devlin J, Chang M W, Lee K, et al. BERT: Pre-training of Deep Bidirectional Transformers for Language Understanding[OL]. arXiv Preprint, arXiv:1810.04805.
|
[6] |
Sun L C, Hashimoto K, Yin W P, et al. Adv-BERT: BERT is not Robust on Misspellings! Generating Nature Adversarial Samples on BERT[OL]. arXiv Preprint, arXiv:2003.04985.
|
[7] |
Sun L C, Xia C Y, Yin W P, et al. Mixup-Transformer: Dynamic Data Augmentation for NLP Tasks[OL]. arXiv Preprint, arXiv:2010.02394.
|
[8] |
Monti F, Frasca F, Eynard D, et al. Fake News Detection on Social Media Using Geometric Deep Learning[OL]. arXiv Preprint, arXiv:1902.06673.
|
[9] |
Han Y, Karunasekera S, Leckie C. Graph Neural Networks with Continual Learning for Fake News Detection from Social Media[OL]. arXiv Preprint, arXiv:2007.03316.
|
[10] |
Kipf T N, Welling M. Semi-supervised Classification with Graph Convolutional Networks[OL]. arXiv Preprint, arXiv:1609.02907.
|
[11] |
Nickerson R S. Confirmation Bias: A Ubiquitous Phenomenon in Many Guises[J]. Review of general psychology, 1998, 2(2): 175-220.
|
[12] |
Yang F, Liu Y, Yu X H, et al. Automatic Detection of Rumor On sina Weibo[C]// Proceedings of the ACM SIGKDD Workshop on Mining Data Semantics. 2012: 1-7.
|
[13] |
Castillo C, Mendoza M, Poblete B. Information Credibility on Twitter[C]// Proceedings of the 20th International Conference on World Wide Web. 2011: 675-684.
|
[14] |
Kwon S, Cha M, Jung K, et al. Prominent Features of Rumor Propagation in Online Social Media[C]// Proceedings of 2013 IEEE 13th International Conference on Data Mining. 2013: 1103-1108.
|
[15] |
Ma J, Gao W, Wei Z Y, et al. Detect Rumors Using Time Series of Social Context Information on Microblogging Websites[C]// Proceedings of the 24th ACM International on Conference on Information and Knowledge Management. 2015: 1751-1754.
|
[16] |
Zhao Z, Resnick P, Mei Q Z. Enquiring Minds: Early Detection of Rumors in Social Media from Enquiry Posts[C]// Proceedings of the 24th International Conference on World Wide Web. 2015: 1395-1405.
|
[17] |
Yang Y Q. COVID-19 Fake News Detection via Graph Neural Networks in Social Media[C]// Proceedings of 2021 IEEE International Conference on Bioinformatics and Biomedicine. 2021: 3178-3180.
|
[18] |
Yuan C Y, Ma Q W, Zhou W, et al. Jointly Embedding the Local and Global Relations of Heterogeneous Graph for Rumor Detection[C]// Proceedings of 2019 IEEE International Conference on Data Mining. 2019: 796-805.
|
[19] |
Ran H Y, Jia C Y, Zhang P F, et al. MGAT-ESM: Multi-channel Graph Attention Neural Network with Event-Sharing Module for Rumor Detection[J]. Information Sciences, 2022, 592: 402-416.
|
[20] |
Ma J, Gao W, Wong K F. Rumor Detection on Twitter with Tree-Structured Recursive Neural Networks[C]// Proceedings of the 56th Annual Meeting of the Association for Computational Linguistics (Volume 1:Long Papers). 2018: 1980-1989.
|
[21] |
Khoo L M S, Chieu H L, Qian Z, et al. Interpretable Rumor Detection in Microblogs by Attending to User Interactions[C]// Proceedings of the 34th AAAI Conference on Artificial Intelligence. 2020: 8783-8790.
|
[22] |
Bian T, Xiao X, Xu T, et al. Rumor Detection on Social Media with Bi-directional Graph Convolutional Networks[C]// Proceedings of the 34th AAAI Conference on Artificial Intelligence. 2020: 549-556.
|
[23] |
Ma J, Gao W. Debunking Rumors on Twitter with Tree Transformer[C]// Proceedings of the 28th International Conference on Computational Linguistics. 2020: 5455-5466.
|
[24] |
Wu Z Y, Pi D C, Chen J F, et al. Rumor Detection Based on Propagation Graph Neural Network with Attention Mechanism[J]. Expert Systems with Applications, 2020, 158: 113595.
|
[25] |
Tu K F, Chen C, Hou C Y, et al. Rumor2vec: A Rumor Detection Framework with Joint Text and Propagation Structure Representation Learning[J]. Information Sciences, 2021, 560: 137-151.
|
[26] |
Luo Z R, Li Q Q, Zheng J. Deep Feature Fusion for Rumor Detection on Twitter[J]. IEEE Access, 2021, 9: 126065-126074.
|
[27] |
Wei L W, Hu D, Zhou W, et al. Towards Propagation Uncertainty: Edge-Enhanced Bayesian Graph Convolutional Networks for Rumor Detection[OL]. arXiv Preprint, arXiv: 2107.11934.
|
[28] |
Ren Y X, Zhang J W. Fake News Detection on News-Oriented Heterogeneous Information Networks Through Hierarchical Graph Attention[C]// Proceedings of 2021 International Joint Conference on Neural Networks. 2021: 1-8.
|
[29] |
强子珊, 顾益军. 基于多模态异质图的社交媒体谣言检测模型[J]. 数据分析与知识发现, 2023, 7(11): 68-78.
|
[29] |
(Qaing Zishan, Gu Yijun. Detecting Social Media Rumors Based on Multimodal Heterogeneous Graph[J]. Data Analysis and Knowledge Discovery, 2023, 7(11): 68-78.)
|
[30] |
韩晓鸿, 赵梦凡, 张钰涛. 联合异质图卷积网络和注意力机制的假新闻检测[J]. 小型微型计算机系统, 2024, 45(2): 301-308.
|
[30] |
(Han Xiaohong, Zhao Mengfan, Zhang Yutao. Joint Heterogeneous Graph Convolutional Network and Attention Mechanism for Fake News Detection[J]. Journal of Chinese Computer Systems, 2024, 45(2): 301-308.)
|
[31] |
Dou Y T, Shu K, Xia C Y, et al. User Preference-Aware Fake News Detection[C]// Proceedings of the 44th International ACM SIGIR Conference on Research and Development in Information Retrieval. 2021: 2051-2055.
|
[32] |
Jiang J W, Wei Y X, Feng Y F, et al. Dynamic Hypergraph Neural Networks[C]// Proceedings of the 28th International Joint Conference on Artificial Intelligence. 2019: 2635-2641.
|
[33] |
Feng Y F, You H X, Zhang Z Z, et al. Hypergraph Neural Networks[C]// Proceedings of the 33th AAAI Conference on Artificial Intelligence. 2019: 3558-3565.
|
[34] |
Jeong U, Ding K Z, Cheng L, et al. Nothing Stands Alone: Relational Fake News Detection with Hypergraph Neural Networks[OL]. arXiv Preprint, arXiv: 2212.12621.
|
[35] |
Ding K Z, Wang J L, Li J D, et al. Be More with Less: Hypergraph Attention Networks for Inductive Text Classification[OL]. arXiv Preprint, arXiv: 2011.00387.
|
[36] |
Shu K, Mahudeswaran D, Wang S H, et al. FakeNewsNet: A Data Repository with News Content, Social Context, and Spatiotemporal Information for Studying Fake News on Social Media[J]. Big Data, 2020, 8(3): 171-188.
|
[37] |
Ma J, Gao W, Mitra P, et al. Detecting Rumors from Microblogs with Recurrent Neural Networks[C]// Proceedings of the 25th International Joint Conference on Artificial Intelligence. 2016: 3818-3824.
|
[38] |
Ying R, You J X, Morris C, et al. Hierarchical Graph Representation Learning with Differentiable Pooling[C]// Proceedings of the 32nd International Conference on Neural Information Processing Systems. 2018: 4805-4815.
|
[39] |
Godbole S, Sarawagi S. Discriminative Methods for Multi-labeled Classification[C]// Proceedings of Pacific-Asia Conference on Knowledge Discovery and Data Mining. 2004: 22-30.
|
|
Viewed |
|
|
|
Full text
|
|
|
|
|
Abstract
|
|
|
|
|
Cited |
|
|
|
|
|
Shared |
|
|
|
|
|
Discussed |
|
|
|
|