#22042Either, (1) words related in meaning to the alternative senses of thepolysemous word will be retrieved; new strings will be derived by substituting these related words into the context of the polysemous word; a large textual corpus will then be searched for these derived strings; and that sense will be chosen that corresponds to the derived string that is found most often in the corpus.
other,36-4-H91-1077,ak
into the
<term>
context
</term>
of the
<term>
polysemous word
</term>
; a
<term>
large textual corpus
</term>
#22063Either, (1) words related in meaning to the alternative senses of the polysemous word will be retrieved; new strings will be derived by substituting these related words into the context of thepolysemous word; a large textual corpus will then be searched for these derived strings; and that sense will be chosen that corresponds to the derived string that is found most often in the corpus.
other,9-5-H91-1077,ak
2 ) the
<term>
context
</term>
of the
<term>
polysemous word
</term>
will be used as a
<term>
key
</term>
#22109Or, (2) the context of thepolysemous word will be used as a key to search a large corpus; all words found to occur in that context will be noted; WordNet will then be used to estimate the semantic distance from those words to the alternative senses of the polysemous word; and that sense will be chosen that is closest in meaning to other words occurring in the same context.
other,54-5-H91-1077,ak
<term>
alternative senses
</term>
of the
<term>
polysemous word
</term>
; and that
<term>
sense
</term>
will
#22154Or, (2) the context of the polysemous word will be used as a key to search a large corpus; all words found to occur in that context will be noted; WordNet will then be used to estimate the semantic distance from those words to the alternative senses of thepolysemous word; and that sense will be chosen that is closest in meaning to other words occurring in the same context.
other,29-4-H91-1077,ak
will be derived by substituting these
<term>
related words
</term>
into the
<term>
context
</term>
of the
#22056Either, (1) words related in meaning to the alternative senses of the polysemous word will be retrieved; new strings will be derived by substituting theserelated words into the context of the polysemous word; a large textual corpus will then be searched for these derived strings; and that sense will be chosen that corresponds to the derived string that is found most often in the corpus.
other,43-5-H91-1077,ak
</term>
will then be used to estimate the
<term>
semantic distance
</term>
from those
<term>
words
</term>
to the
#22143Or, (2) the context of the polysemous word will be used as a key to search a large corpus; all words found to occur in that context will be noted; WordNet will then be used to estimate thesemantic distance from those words to the alternative senses of the polysemous word; and that sense will be chosen that is closest in meaning to other words occurring in the same context.
#21957A method of sense resolution is proposed that is based on WordNet, an on-line lexical database that incorporatessemantic relations (synonymy, antonymy, hyponymy, meronymy, causal and troponymic entailment) as labeled pointers between word senses.
other,10-2-H91-1077,ak
</term>
, it is easy to retrieve sets of
<term>
semantically related words
</term>
, a facility that will be used for
#21990With WordNet, it is easy to retrieve sets ofsemantically related words, a facility that will be used for sense resolution during text processing, as follows.
other,54-4-H91-1077,ak
for these derived strings ; and that
<term>
sense
</term>
will be chosen that corresponds to
#22081Either, (1) words related in meaning to the alternative senses of the polysemous word will be retrieved; new strings will be derived by substituting these related words into the context of the polysemous word; a large textual corpus will then be searched for these derived strings; and thatsense will be chosen that corresponds to the derived string that is found most often in the corpus.
other,59-5-H91-1077,ak
<term>
polysemous word
</term>
; and that
<term>
sense
</term>
will be chosen that is closest in
#22159Or, (2) the context of the polysemous word will be used as a key to search a large corpus; all words found to occur in that context will be noted; WordNet will then be used to estimate the semantic distance from those words to the alternative senses of the polysemous word; and thatsense will be chosen that is closest in meaning to other words occurring in the same context.
tech,3-1-H91-1077,ak
specific
<term>
corpora
</term>
. A method of
<term>
sense resolution
</term>
is proposed that is based on
<term>
#21941A method ofsense resolution is proposed that is based on WordNet, an on-line lexical database that incorporates semantic relations (synonymy, antonymy, hyponymy, meronymy, causal and troponymic entailment) as labeled pointers between word senses.
tech,21-2-H91-1077,ak
, a facility that will be used for
<term>
sense resolution
</term>
during
<term>
text processing
</term>
#22001With WordNet, it is easy to retrieve sets of semantically related words, a facility that will be used forsense resolution during text processing, as follows.
other,5-3-H91-1077,ak
When a
<term>
word
</term>
with multiple
<term>
senses
</term>
is encountered , one of two procedures
#22015When a word with multiplesenses is encountered, one of two procedures will be followed.
#21960A method of sense resolution is proposed that is based on WordNet, an on-line lexical database that incorporates semantic relations (synonymy, antonymy, hyponymy, meronymy, causal and troponymic entailment) as labeled pointers between word senses.
tech,24-2-H91-1077,ak
<term>
sense resolution
</term>
during
<term>
text processing
</term>
, as follows . When a
<term>
word
</term>
#22004With WordNet, it is easy to retrieve sets of semantically related words, a facility that will be used for sense resolution duringtext processing, as follows.
other,2-3-H91-1077,ak
processing
</term>
, as follows . When a
<term>
word
</term>
with multiple
<term>
senses
</term>
is
#22012When aword with multiple senses is encountered, one of two procedures will be followed.
other,39-1-H91-1077,ak
</term>
) as labeled pointers between
<term>
word senses
</term>
. With
<term>
WordNet
</term>
, it is
#21977A method of sense resolution is proposed that is based on WordNet, an on-line lexical database that incorporates semantic relations (synonymy, antonymy, hyponymy, meronymy, causal and troponymic entailment) as labeled pointers betweenword senses.
tool,11-1-H91-1077,ak
</term>
is proposed that is based on
<term>
WordNet
</term>
, an on-line
<term>
lexical database
#21949A method of sense resolution is proposed that is based onWordNet, an on-line lexical database that incorporates semantic relations (synonymy, antonymy, hyponymy, meronymy, causal and troponymic entailment) as labeled pointers between word senses.
tool,1-2-H91-1077,ak
between
<term>
word senses
</term>
. With
<term>
WordNet
</term>
, it is easy to retrieve sets of
<term>
#21981WithWordNet, it is easy to retrieve sets of semantically related words, a facility that will be used for sense resolution during text processing, as follows.
tool,35-5-H91-1077,ak
<term>
context
</term>
will be noted ;
<term>
WordNet
</term>
will then be used to estimate the
#22135Or, (2) the context of the polysemous word will be used as a key to search a large corpus; all words found to occur in that context will be noted;WordNet will then be used to estimate the semantic distance from those words to the alternative senses of the polysemous word; and that sense will be chosen that is closest in meaning to other words occurring in the same context.