discrimination and robustness oriented adaptive learning procedure
</term>
is proposed to deal with the task
#22773In this paper, adiscrimination and robustness oriented adaptive learning procedure is proposed to deal with the task of syntactic ambiguity resolution.
tech,20-1-C92-1055,ak
proposed to deal with the task of
<term>
syntactic ambiguity resolution
</term>
. Owing to the problem of insufficient
#22788In this paper, a discrimination and robustness oriented adaptive learning procedure is proposed to deal with the task ofsyntactic ambiguity resolution.
lr,6-2-C92-1055,ak
Owing to the problem of insufficient
<term>
training data
</term>
and
<term>
approximation error
</term>
#22798Owing to the problem of insufficienttraining data and approximation error introduced by the language model, traditional statistical approaches, which resolve ambiguities by indirectly and implicitly using maximum likelihood method, fail to achieve high performance in real applications.
other,9-2-C92-1055,ak
insufficient
<term>
training data
</term>
and
<term>
approximation error
</term>
introduced by the
<term>
language model
#22801Owing to the problem of insufficient training data andapproximation error introduced by the language model, traditional statistical approaches, which resolve ambiguities by indirectly and implicitly using maximum likelihood method, fail to achieve high performance in real applications.
model,14-2-C92-1055,ak
approximation error
</term>
introduced by the
<term>
language model
</term>
, traditional
<term>
statistical approaches
#22806Owing to the problem of insufficient training data and approximation error introduced by thelanguage model, traditional statistical approaches, which resolve ambiguities by indirectly and implicitly using maximum likelihood method, fail to achieve high performance in real applications.
tech,18-2-C92-1055,ak
language model
</term>
, traditional
<term>
statistical approaches
</term>
, which resolve
<term>
ambiguities
</term>
#22810Owing to the problem of insufficient training data and approximation error introduced by the language model, traditionalstatistical approaches, which resolve ambiguities by indirectly and implicitly using maximum likelihood method, fail to achieve high performance in real applications.
other,23-2-C92-1055,ak
statistical approaches
</term>
, which resolve
<term>
ambiguities
</term>
by indirectly and implicitly using
#22815Owing to the problem of insufficient training data and approximation error introduced by the language model, traditional statistical approaches, which resolveambiguities by indirectly and implicitly using maximum likelihood method, fail to achieve high performance in real applications.
tech,29-2-C92-1055,ak
by indirectly and implicitly using
<term>
maximum likelihood method
</term>
, fail to achieve high performance
#22821Owing to the problem of insufficient training data and approximation error introduced by the language model, traditional statistical approaches, which resolve ambiguities by indirectly and implicitly usingmaximum likelihood method, fail to achieve high performance in real applications.
other,9-3-C92-1055,ak
remedies these problems by adjusting the
<term>
parameters
</term>
to maximize the
<term>
accuracy rate
#22843The proposed method remedies these problems by adjusting theparameters to maximize the accuracy rate directly.
measure(ment),13-3-C92-1055,ak
<term>
parameters
</term>
to maximize the
<term>
accuracy rate
</term>
directly . To make the proposed
<term>
#22847The proposed method remedies these problems by adjusting the parameters to maximize theaccuracy rate directly.
tech,4-4-C92-1055,ak
</term>
directly . To make the proposed
<term>
algorithm
</term>
robust , the possible variations
#22855To make the proposedalgorithm robust, the possible variations between the training corpus and the real tasks are also taken into consideration by enlarging the separation margin between the correct candidate and its competing members.
lr,12-4-C92-1055,ak
the possible variations between the
<term>
training corpus
</term>
and the real tasks are also taken
#22863To make the proposed algorithm robust, the possible variations between thetraining corpus and the real tasks are also taken into consideration by enlarging the separation margin between the correct candidate and its competing members.
other,26-4-C92-1055,ak
into consideration by enlarging the
<term>
separation margin
</term>
between the correct
<term>
candidate
#22877To make the proposed algorithm robust, the possible variations between the training corpus and the real tasks are also taken into consideration by enlarging theseparation margin between the correct candidate and its competing members.
other,31-4-C92-1055,ak
separation margin
</term>
between the correct
<term>
candidate
</term>
and its competing members . Significant
#22882To make the proposed algorithm robust, the possible variations between the training corpus and the real tasks are also taken into consideration by enlarging the separation margin between the correctcandidate and its competing members.
measure(ment),1-6-C92-1055,ak
has been observed in the test . The
<term>
accuracy rate
</term>
of
<term>
syntactic disambiguation
</term>
#22898Theaccuracy rate of syntactic disambiguation is raised from 46.0% to 60.62% by using this novel approach.
tech,4-6-C92-1055,ak
. The
<term>
accuracy rate
</term>
of
<term>
syntactic disambiguation
</term>
is raised from 46.0 % to 60.62 %
#22901The accuracy rate ofsyntactic disambiguation is raised from 46.0% to 60.62% by using this novel approach.