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- Title
Neural Relation Classification Using Selective Attention and Symmetrical Directional Instances.
- Authors
Tan, Zhen; Li, Bo; Huang, Peixin; Ge, Bin; Xiao, Weidong
- Abstract
Relation classification (RC) is an important task in information extraction from unstructured text. Recently, several neural methods based on various network architectures have been adopted for the task of RC. Among them, convolution neural network (CNN)-based models stand out due to their simple structure, low model complexity and "good" performance. Nevertheless, there are still at least two limitations associated with existing CNN-based RC models. First, when handling samples with long distances between entities, they fail to extract effective features, even obtaining disturbing ones from the clauses, which results in decreased accuracy. Second, existing RC models tend to produce inconsistent results when fed with forward and backward instances of an identical sample. Therefore, we present a novel CNN-based sentence encoder with selective attention by leveraging the shortest dependency paths, and devise a classification framework using symmetrical directional—forward and backward—instances via information fusion. Comprehensive experiments verify the superior performance of the proposed RC model over mainstream competitors without additional artificial features.
- Subjects
INFORMATION retrieval; COMPUTER network architectures; DIFFERENTIATED services networks; SIGNAL convolution; ENCODING
- Publication
Symmetry (20738994), 2018, Vol 10, Issue 9, p357
- ISSN
2073-8994
- Publication type
Article
- DOI
10.3390/sym10090357