The Future is not One-dimensional: Complex Event Schema Induction by Graph Modeling for Event Prediction
Abstract
Event schemas encode knowledge of stereotypical structures of events and their connections. As events unfold, schemas are crucial to act as a scaffolding. Previous work on event schema induction focuses either on atomic events or linear temporal event sequences, ignoring the interplay between events via arguments and argument relations. We introduce a new concept of Temporal Complex Event Schema: a graph-based schema representation that encompasses events, arguments, temporal connections and argument relations. In addition, we propose a Temporal Event Graph Model that predicts event instances following the temporal complex event schema. To build and evaluate such schemas, we release a new schema learning corpus containing 6,399 documents accompanied with event graphs, and we have manually constructed gold-standard schemas. Intrinsic evaluations based on schema matching and instance graph perplexity, prove the superior quality of our probabilistic graph schema library compared to linear representations. Extrinsic evaluation on schema-guided future event prediction further demonstrates the predictive power of our event graph model, significantly outperforming human schemas and baselines by more than 23.8% on HITS@1.
Cite
@article{arxiv.2104.06344,
title = {The Future is not One-dimensional: Complex Event Schema Induction by Graph Modeling for Event Prediction},
author = {Manling Li and Sha Li and Zhenhailong Wang and Lifu Huang and Kyunghyun Cho and Heng Ji and Jiawei Han and Clare Voss},
journal= {arXiv preprint arXiv:2104.06344},
year = {2022}
}