Learning to Map Frequent Phrases to Sub-Structures of Meaning Representation for Neural Semantic Parsing

Neural semantic parsers usually generate meaning representation tokens from natural language tokens via an encoderdecoder model. However, there is often a vocabularymismatch problem between natural language utterances and logical forms. That is, one word maps to several atomic logical tokens, which need to be handled as a whole, rather than individual logical tokens at multiple steps. In this paper, we propose that the vocabulary-mismatch problem can be effectively resolved by leveraging appropriate logical tokens. Specifically, we exploit macro actions, which are of the same granularity of words/phrases, and allow the model to learn mappings from frequent phrases to corresponding substructures of meaning representation. Furthermore, macro actions are compact, and therefore utilizing them can significantly reduce the search space, which brings a great benefit to weakly supervised semantic parsing. Experiments show that our method leads to substantial performance improvement on three benchmarks, in both supervised and weakly supervised settings.

Authors

• Bo Chen Middle Tennessee State University
• Xianpei Han Chinese Information Processing Laboratory, Institute of Software, Chinese Academy of Sciences, Beijing, China
• Ben He Chinese Information Processing Laboratory, Institute of Software, Chinese Academy of Sciences, Beijing, China University of Chinese Academy of Sciences, Beijing, China
• Le Sun Chinese Information Processing Laboratory, Institute of Software, Chinese Academy of Sciences, Beijing, China

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