Revisiting the poverty of the stimulus: hierarchical generalization without a hierarchical bias in recurrent neural networks
- Richard McCoy, Johns Hopkins University, Baltimore, Maryland, United States
- Robert Frank, Linguistics Department, Yale University, Linguistics, Connecticut, United States
- Tal Linzen, Department of Cognitive Science, Johns Hopkins University, Baltimore, Maryland, United States
AbstractSyntactic rules in natural language typically need to make reference to hierarchical sentence structure. However, the simple examples that language learners receive are often equally compatible with linear rules. Children consistently ignore these linear explanations and settle instead on the correct hierarchical one. This fact has motivated the proposal that the learner's hypothesis space is constrained to include only hierarchical rules. We examine this proposal using recurrent neural networks (RNNs), which are not constrained in such a way. We simulate the acquisition of question formation, a hierarchical transformation, in a fragment of English. We find that some RNN architectures tend to learn the hierarchical rule, suggesting that hierarchical cues within the language, combined with the implicit architectural biases inherent in certain RNNs, may be sufficient to induce hierarchical generalizations. The likelihood of acquiring the hierarchical generalization increased when the language included an additional cue to hierarchy in the form of subject-verb agreement, underscoring the role of cues to hierarchy in the learner's input.
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