Koo and Collins ACL 2010

Citation

Koo, T. and Collins, M. 2010. Efficient Third-Order Dependency Parsers. In Proceedings of ACL, pp. 1-11. Association for Computational Linguistics.

Online version

ACL

Summary

This paper presents a higher-order dependency parser that can evaluate substructures containing three dependencies, using both sibling-style and grandchild-style interactions. The algorithms presented require only ${\displaystyle O(n^{4})}$ time and were evaluated on the Penn Treebank and the Prague Dependency Treebank. The implementation code was publicly released [1].

Background

Dependency parsing is defined as a search for the highest-scoring analysis of a sentence ${\displaystyle \,x}$:

${\displaystyle y^{*}(x)=_{y\in Y(x)}^{argmax}{\textrm {Score}}(x,y)}$

where ${\displaystyle \,Y(x)}$ is the set of all trees compatible with ${\displaystyle \,x}$ and ${\displaystyle \,{\textrm {Score}}(x,y)}$ evaluates the event that tree ${\displaystyle \,y}$ is the analysis of ${\displaystyle \,x}$. Directly solving the equation is unfeasible because the number of possible trees grow exponentially with the length of the sentence. A common strategy is to factor each dependency tree into small parts which can be scored individually, then:

${\displaystyle {\textrm {Score}}(x,y)=\sum _{p\in y}{\textrm {ScorePart}}(x,p)}$

The order of a part is defined according to the number of dependencies it contains, a terminology used in previous parsing algorithms, such as first-order factorization and second-order sibling factorization. The factorizations in this new third-order parser uses the following parts:

File:Dpo3 001.png

Experimental results

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Related papers

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