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Learning Entangled Interactions of Complex Causality via Self-Paced Contrastive Learning
Learning causality from large-scale text corpora is an important task with numerous applications—for example, in finance, biology, medicine, and scientific discovery. Prior studies have focused mainly on simple causality, which only includes one cause-effect pair. However, causality is notoriously d...
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| Published in: | ACM transactions on knowledge discovery from data 2023-12, Vol.18 (3), p.1-24, Article 56 |
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| container_title | ACM transactions on knowledge discovery from data |
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| creator | Liang, Yunji Liu, Lei Huangfu, Luwen Samtani, Sagar Yu, Zhiwen Zeng, Daniel D. |
| description | Learning causality from large-scale text corpora is an important task with numerous applications—for example, in finance, biology, medicine, and scientific discovery. Prior studies have focused mainly on simple causality, which only includes one cause-effect pair. However, causality is notoriously difficult to understand and analyze because of multiple cause spans and their entangled interactions. To detect complex causality, we propose a self-paced contrastive learning model, namely N2NCause, to learn entangled interactions between multiple spans. Specifically, N2NCause introduces data enhancement operations to convert implicit expressions into explicit expressions with the most rational causal connectives for the synthesis of positive samples and to invert the directed connection between a cause-effect pair for the synthesis of negative samples. To learn the semantic dependency and causal direction of positive and negative samples, self-paced contrastive learning is proposed to learn the entangled interactions among spans, including the interaction direction and interaction field. We evaluated the performance of N2NCause in three cause-effect detection tasks. The experimental results show that, with the least data annotation efforts, N2NCause demonstrates competitive performance in detecting simple cause-effect relations, and it is superior to existing solutions for the detection of complex causality. |
| doi_str_mv | 10.1145/3632406 |
| format | article |
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Prior studies have focused mainly on simple causality, which only includes one cause-effect pair. However, causality is notoriously difficult to understand and analyze because of multiple cause spans and their entangled interactions. To detect complex causality, we propose a self-paced contrastive learning model, namely N2NCause, to learn entangled interactions between multiple spans. Specifically, N2NCause introduces data enhancement operations to convert implicit expressions into explicit expressions with the most rational causal connectives for the synthesis of positive samples and to invert the directed connection between a cause-effect pair for the synthesis of negative samples. To learn the semantic dependency and causal direction of positive and negative samples, self-paced contrastive learning is proposed to learn the entangled interactions among spans, including the interaction direction and interaction field. We evaluated the performance of N2NCause in three cause-effect detection tasks. 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| identifier | ISSN: 1556-4681 |
| ispartof | ACM transactions on knowledge discovery from data, 2023-12, Vol.18 (3), p.1-24, Article 56 |
| issn | 1556-4681 1556-472X |
| language | eng |
| recordid | cdi_crossref_primary_10_1145_3632406 |
| source | Association for Computing Machinery:Jisc Collections:ACM OPEN Journals 2023-2025 (reading list) |
| subjects | Computing methodologies Information extraction Information systems Social networks |
| title | Learning Entangled Interactions of Complex Causality via Self-Paced Contrastive Learning |
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