The syntactic structure of a sentence can be modelled as a tree, where vertices correspond to words and edges indicate syntactic dependencies. It has been claimed recurrently that the number of edge crossings in real sentences is small. However, a baseline or null hypothesis has been lacking. Here we quantify the amount of crossings of real sentences and compare it to the predictions of a series of baselines. We conclude that crossings are really scarce in real sentences. Their scarcity is unexpected by the hubiness of the trees. Indeed, real sentences are close to linear trees, where the potential number of crossings is maximized.Peer Reviewe
Automatic syntactic analysis of natural language is one of the fundamental problems in natural langu...
Corpus data are used to investigate Yngve’s claim that English usage avoids grammatical structures i...
Dependency graphs have proven to be a very successful model to represent the syntactic structure of ...
The syntactic structure of a sentence can be modelled as a tree, where vertices correspond to words ...
The structure of a sentence can be represented as a network where vertices are words and edges indic...
The syntactic structure of a sentence can be modeled as a tree where vertices are words and edges in...
It has been hypothesized that the rather small number of crossings in real syntactic de...
The syntactic structure of sentences exhibits a striking regularity: dependencies tend to not cross ...
Here we study the arrangement of vertices of trees in a 1-dimensional Euclidean space when the Eucli...
The use of null hypotheses (in a statistical sense) is common in hard sciences but not in theoretica...
Here tree dependency structures are studied from three different perspectives: their degree variance...
The syntactic structure of a sentence is often represented using syntactic dependency trees. The sum...
The syntactic structure of a sentence is often represented using syntactic dependency trees. The sum...
Automatic syntactic analysis of natural language is one of the fundamental problems in natural langu...
Abstract The use of null hypotheses (in a statistical sense) is common in hard sci-ences but not in ...
Automatic syntactic analysis of natural language is one of the fundamental problems in natural langu...
Corpus data are used to investigate Yngve’s claim that English usage avoids grammatical structures i...
Dependency graphs have proven to be a very successful model to represent the syntactic structure of ...
The syntactic structure of a sentence can be modelled as a tree, where vertices correspond to words ...
The structure of a sentence can be represented as a network where vertices are words and edges indic...
The syntactic structure of a sentence can be modeled as a tree where vertices are words and edges in...
It has been hypothesized that the rather small number of crossings in real syntactic de...
The syntactic structure of sentences exhibits a striking regularity: dependencies tend to not cross ...
Here we study the arrangement of vertices of trees in a 1-dimensional Euclidean space when the Eucli...
The use of null hypotheses (in a statistical sense) is common in hard sciences but not in theoretica...
Here tree dependency structures are studied from three different perspectives: their degree variance...
The syntactic structure of a sentence is often represented using syntactic dependency trees. The sum...
The syntactic structure of a sentence is often represented using syntactic dependency trees. The sum...
Automatic syntactic analysis of natural language is one of the fundamental problems in natural langu...
Abstract The use of null hypotheses (in a statistical sense) is common in hard sci-ences but not in ...
Automatic syntactic analysis of natural language is one of the fundamental problems in natural langu...
Corpus data are used to investigate Yngve’s claim that English usage avoids grammatical structures i...
Dependency graphs have proven to be a very successful model to represent the syntactic structure of ...