A Family of Cognitively Realistic Parsing Environments for Deep Reinforcement Learning

Abstract

The hierarchical syntactic structure of natural language is a key feature of human cognition that enables us to recursively construct arbitrarily long sentences supporting communication of complex, relational information. In this work, we describe a framework in which learning cognitively-realistic left-corner parsers can be formalized as a Reinforcement Learning problem, and introduce a family of cognitively realistic chart-parsing environments to evaluate potential psycholinguistic implications of RL algorithms. We report how several baseline Q-learning and Actor Critic algorithms, both tabular and neural, perform on subsets of the Penn Treebank corpus. We observe a sharp increase in difficulty as parse trees get slightly more complex, indicating that hierarchical reinforcement learning might be required to solve this family of environments.

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