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ACL
2015
2015
Joint Information Extraction and Reasoning: A Scalable Statistical Relational Learning Approach
A standard pipeline for statistical relational learning involves two steps: one first constructs the knowledge base (KB) from text, and then performs the learning and reasoning tasks using probabilistic first-order logics. However, a key issue is that information extraction (IE) errors from text affect the quality of the KB, and propagate to the reasoning task. In this paper, we propose a statistical relational learning model for joint information extraction and reasoning. More specifically, we incorporate context-based entity extraction with structure learning (SL) in a scalable probabilistic logic framework. We then propose a latent context invention (LCI) approach to improve the performance. In experiments, we show that our approach outperforms state-of-the-art baselines over three real-world Wikipedia datasets from multiple domains; that joint learning and inference for IE and SL significantly improve both tasks; that latent context invention further improves the results.
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| Added | 13 Apr 2016 |
| Updated | 13 Apr 2016 |
| Type | Journal |
| Year | 2015 |
| Where | ACL |
| Authors | William Yang Wang, William W. Cohen |
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