A Neural Probabilistic Structured-Prediction Method for Transition-Based Natural Language Processing | Zendy

Hao Zhou | Zendy; Yue Zhang | Zendy; Chuan Cheng | Zendy; Shujian Huang | Zendy; Xinyu Dai | Zendy; Jiajun Chen | Zendy

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A Neural Probabilistic Structured-Prediction Method for Transition-Based Natural Language Processing

Author(s) -

Hao Zhou,

Yue Zhang,

Chuan Cheng,

Shujian Huang,

Xinyu Dai,

Jiajun Chen

Publication year - 2017

Publication title -

journal of artificial intelligence research

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 0.79

H-Index - 123

eISSN - 1943-5037

pISSN - 1076-9757

DOI - 10.1613/jair.5259

Subject(s) - beam search , computer science , leverage (statistics) , chunking (psychology) , artificial intelligence , probabilistic logic , structured prediction , machine learning , parsing , natural language , heuristic , dependency grammar , natural language processing , search algorithm , algorithm

We propose a neural probabilistic structured-prediction method for transition-based natural language processing, which integrates beam search and contrastive learning. The method uses a global optimization model, which can leverage arbitrary features over nonlocal context. Beam search is used for efficient heuristic decoding, and contrastive learning is performed for adjusting the model according to search errors. When evaluated on both chunking and dependency parsing tasks, the proposed method achieves significant accuracy improvements over the locally normalized greedy baseline on the two tasks, respectively.

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