other,23-9-J05-1003,bq |
of the feature space
</term>
in the
<term>
|
parsing data
|
</term>
. Experiments show significant efficiency
|
#8884
The article also introduces a new algorithm for the boosting approach which takes advantage of the sparsity of the feature space in theparsing data. |
tech,8-10-J05-1003,bq |
significant efficiency gains for the new
<term>
|
algorithm
|
</term>
over the obvious
<term>
implementation
|
#8895
Experiments show significant efficiency gains for the newalgorithm over the obvious implementation of the boosting approach. |
other,12-10-J05-1003,bq |
<term>
algorithm
</term>
over the obvious
<term>
|
implementation
|
</term>
of the
<term>
boosting approach
</term>
|
#8899
Experiments show significant efficiency gains for the new algorithm over the obviousimplementation of the boosting approach. |
tech,15-10-J05-1003,bq |
obvious
<term>
implementation
</term>
of the
<term>
|
boosting approach
|
</term>
. We argue that the method is an
|
#8902
Experiments show significant efficiency gains for the new algorithm over the obvious implementation of theboosting approach. |
tech,21-11-J05-1003,bq |
simplicity and efficiency — to work on
<term>
|
feature selection methods
|
</term>
within
<term>
log-linear ( maximum-entropy
|
#8926
We argue that the method is an appealing alternative—in terms of both simplicity and efficiency—to work onfeature selection methods within log-linear (maximum-entropy) models. |
tech,25-11-J05-1003,bq |
feature selection methods
</term>
within
<term>
|
log-linear ( maximum-entropy ) models
|
</term>
. Although the experiments in this
|
#8930
We argue that the method is an appealing alternative—in terms of both simplicity and efficiency—to work on feature selection methods withinlog-linear ( maximum-entropy ) models. |
tech,8-12-J05-1003,bq |
experiments in this article are on
<term>
|
natural language parsing ( NLP )
|
</term>
, the
<term>
approach
</term>
should
|
#8944
Although the experiments in this article are onnatural language parsing ( NLP ), the approach should be applicable to many other NLP problems which are naturally framed as ranking tasks, for example, speech recognition, machine translation, or natural language generation. |
tech,16-12-J05-1003,bq |
language parsing ( NLP )
</term>
, the
<term>
|
approach
|
</term>
should be applicable to many other
|
#8952
Although the experiments in this article are on natural language parsing (NLP), theapproach should be applicable to many other NLP problems which are naturally framed as ranking tasks, for example, speech recognition, machine translation, or natural language generation. |
other,23-12-J05-1003,bq |
should be applicable to many other
<term>
|
NLP problems
|
</term>
which are naturally framed as
<term>
|
#8959
Although the experiments in this article are on natural language parsing (NLP), the approach should be applicable to many otherNLP problems which are naturally framed as ranking tasks, for example, speech recognition, machine translation, or natural language generation. |
tech,30-12-J05-1003,bq |
</term>
which are naturally framed as
<term>
|
ranking tasks
|
</term>
, for example ,
<term>
speech recognition
|
#8966
Although the experiments in this article are on natural language parsing (NLP), the approach should be applicable to many other NLP problems which are naturally framed asranking tasks, for example, speech recognition, machine translation, or natural language generation. |
tech,36-12-J05-1003,bq |
ranking tasks
</term>
, for example ,
<term>
|
speech recognition
|
</term>
,
<term>
machine translation
</term>
|
#8972
Although the experiments in this article are on natural language parsing (NLP), the approach should be applicable to many other NLP problems which are naturally framed as ranking tasks, for example,speech recognition, machine translation, or natural language generation. |
tech,39-12-J05-1003,bq |
,
<term>
speech recognition
</term>
,
<term>
|
machine translation
|
</term>
, or
<term>
natural language generation
|
#8975
Although the experiments in this article are on natural language parsing (NLP), the approach should be applicable to many other NLP problems which are naturally framed as ranking tasks, for example, speech recognition,machine translation, or natural language generation. |
tech,43-12-J05-1003,bq |
<term>
machine translation
</term>
, or
<term>
|
natural language generation
|
</term>
. We present a novel
<term>
method
</term>
|
#8979
Although the experiments in this article are on natural language parsing (NLP), the approach should be applicable to many other NLP problems which are naturally framed as ranking tasks, for example, speech recognition, machine translation, ornatural language generation. |