Knowledge-preserving incremental social event detection via heterogeneous GNNs

Cao, Y; Peng, H; Wu, J; Dou, Y; Li, J; Yu, PS

Knowledge-preserving incremental social event detection via heterogeneous GNNs

Cao, Y Peng, H Wu, J Dou, Y Li, J Yu, PS

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Publisher:: ACM
Publication Type:: Conference Proceeding
Citation:: The Web Conference 2021 - Proceedings of the World Wide Web Conference, WWW 2021, 2021, pp. 3383-3395
Issue Date:: 2021-04-19

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Field	Value	Language
dc.contributor.author	Cao, Y
dc.contributor.author	Peng, H
dc.contributor.author	Wu, J
dc.contributor.author	Dou, Y
dc.contributor.author	Li, J
dc.contributor.author	Yu, PS
dc.date.accessioned	2022-06-08T22:38:24Z
dc.date.available	2022-06-08T22:38:24Z
dc.date.issued	2021-04-19
dc.identifier.citation	The Web Conference 2021 - Proceedings of the World Wide Web Conference, WWW 2021, 2021, pp. 3383-3395
dc.identifier.isbn	9781450383127
dc.identifier.uri	http://hdl.handle.net/10453/158025
dc.description.abstract	Social events provide valuable insights into group social behaviors and public concerns and therefore have many applications in fields such as product recommendation and crisis management. The complexity and streaming nature of social messages make it appealing to address social event detection in an incremental learning setting, where acquiring, preserving, and extending knowledge are major concerns. Most existing methods, including those based on incremental clustering and community detection, learn limited amounts of knowledge as they ignore the rich semantics and structural information contained in social data. Moreover, they cannot memorize previously acquired knowledge. In this paper, we propose a novel Knowledge-Preserving Incremental Heterogeneous Graph Neural Network (KPGNN) for incremental social event detection. To acquire more knowledge, KPGNN models complex social messages into unified social graphs to facilitate data utilization and explores the expressive power of GNNs for knowledge extraction. To continuously adapt to the incoming data, KPGNN adopts contrastive loss terms that cope with a changing number of event classes. It also leverages the inductive learning ability of GNNs to efficiently detect events and extends its knowledge from previously unseen data. To deal with large social streams, KPGNN adopts a mini-batch subgraph sampling strategy for scalable training, and periodically removes obsolete data to maintain a dynamic embedding space. KPGNN requires no feature engineering and has few hyperparameters to tune. Extensive experiment results demonstrate the superiority of KPGNN over various baselines.
dc.language	en
dc.publisher	ACM
dc.relation.ispartof	The Web Conference 2021 - Proceedings of the World Wide Web Conference, WWW 2021
dc.relation.ispartof	Proceedings of the Web Conference 2021
dc.relation.isbasedon	10.1145/3442381.3449834
dc.rights	info:eu-repo/semantics/openAccess
dc.title	Knowledge-preserving incremental social event detection via heterogeneous GNNs
dc.type	Conference Proceeding
pubs.organisational-group	/University of Technology Sydney
pubs.organisational-group	/University of Technology Sydney/Faculty of Engineering and Information Technology
utslib.copyright.status	open_access	*
dc.date.updated	2022-06-08T22:38:23Z
pubs.publication-status	Published

Abstract:

Social events provide valuable insights into group social behaviors and public concerns and therefore have many applications in fields such as product recommendation and crisis management. The complexity and streaming nature of social messages make it appealing to address social event detection in an incremental learning setting, where acquiring, preserving, and extending knowledge are major concerns. Most existing methods, including those based on incremental clustering and community detection, learn limited amounts of knowledge as they ignore the rich semantics and structural information contained in social data. Moreover, they cannot memorize previously acquired knowledge. In this paper, we propose a novel Knowledge-Preserving Incremental Heterogeneous Graph Neural Network (KPGNN) for incremental social event detection. To acquire more knowledge, KPGNN models complex social messages into unified social graphs to facilitate data utilization and explores the expressive power of GNNs for knowledge extraction. To continuously adapt to the incoming data, KPGNN adopts contrastive loss terms that cope with a changing number of event classes. It also leverages the inductive learning ability of GNNs to efficiently detect events and extends its knowledge from previously unseen data. To deal with large social streams, KPGNN adopts a mini-batch subgraph sampling strategy for scalable training, and periodically removes obsolete data to maintain a dynamic embedding space. KPGNN requires no feature engineering and has few hyperparameters to tune. Extensive experiment results demonstrate the superiority of KPGNN over various baselines.

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http://hdl.handle.net/10453/158025