Order-sensitive Neural Constituency Parsing
This is an incremental improvement for natural language processing researchers and practitioners, enhancing parsing accuracy in specific datasets.
The paper tackles constituency parsing by introducing an order-sensitive decoding algorithm that improves span combination scoring, resulting in F1 score gains of 0.26% on Penn Treebank and 0.35% on Chinese Treebank over the previous state-of-the-art.
We propose a novel algorithm that improves on the previous neural span-based CKY decoder for constituency parsing. In contrast to the traditional span-based decoding, where spans are combined only based on the sum of their scores, we introduce an order-sensitive strategy, where the span combination scores are more carefully derived from an order-sensitive basis. Our decoder can be regarded as a generalization over existing span-based decoder in determining a finer-grain scoring scheme for the combination of lower-level spans into higher-level spans, where we emphasize on the order of the lower-level spans and use order-sensitive span scores as well as order-sensitive combination grammar rule scores to enhance prediction accuracy. We implement the proposed decoding strategy harnessing GPU parallelism and achieve a decoding speed on par with state-of-the-art span-based parsers. Using the previous state-of-the-art model without additional data as our baseline, we outperform it and improve the F1 score on the Penn Treebank Dataset by 0.26% and on the Chinese Treebank Dataset by 0.35%.