Główne pojęcia
A novel region-based table filling method that exploits local spatial dependencies of relational triples to improve entity pair boundary detection and relational triple extraction.
Streszczenie
The paper proposes a Region-based Table Filling (RTF) method for relational triple extraction. The key contributions are:
- A novel Entity Pair as Region (EPR) tagging scheme and bi-directional decoding strategy to identify each entity pair as a rectangular region on a relation-specific table.
- The use of convolution to construct region-level table representations, which allows each token pair to interact with surrounding token pairs and capture local spatial dependencies of triples.
- A relational residual learning approach that separates the tagging score into relation-independent and relation-dependent parts, reducing the burden on the relation classifier.
The experimental results show that RTF achieves state-of-the-art performance on two benchmark datasets (NYT and WebNLG) and demonstrates better generalization capability compared to previous methods.
Statystyki
The paper reports the following key statistics:
The NYT dataset contains 56,196 training samples and 5,000 test samples, with 3,071 overlapping triples in the test set.
The WebNLG dataset contains 5,019 training samples and 703 test samples, with 239 overlapping triples in the test set.
Cytaty
"Each relational triple corresponds to a fixed rectangular region on a relation-specific table. If we can identify the boundaries of entity pairs from a spatial perspective, we can extract triples more conveniently."
"We devise a novel region-based tagging scheme and bi-directional decoding strategy to identify each entity pair on the table."
"We introduce convolution to construct region-level table representations and share tagging scores of different relations to fully utilize regional correlations for improving entity pair boundary recognition."