Finding Optimal 1-Endpoint-Crossing Trees

Emily Pitler; Sampath Kannan; Mitchell Marcus

Vol. 1 (2013)

TACL approved

Finding Optimal 1-Endpoint-Crossing Trees

Published 2013-03-01

Emily Pitler
Sampath Kannan
Mitchell Marcus

Emily Pitler
University of Pennsylvania

Sampath Kannan
University of Pennsylvania

Mitchell Marcus
University of Pennsylvania

Abstract

Dependency parsing algorithms capable of producing the types of crossing dependencies seen in natural language sentences have traditionally been orders of magnitude slower than algorithms for projective trees. For 95.8-99.8% of dependency parses in various natural language treebanks, whenever an edge is crossed, the edges that cross it all have a common vertex. The optimal dependency tree that satisfies this 1-Endpoint-Crossing property can be found with an O(n^4) parsing algorithm that recursively combines forests over intervals with one exterior point. 1-Endpoint-Crossing trees also have natural connections to linguistics and another class of graphs that has been studied in NLP.

PDF (presented at NAACL 2013)

Author Biography

Emily Pitler

Computer and Information Science

Graduate Student

Sampath Kannan

Computer and Information Science

Professor

Mitchell Marcus

Computer and Information Science

Professor