limited-domain computer system
</term>
. Robust
<term>
natural language interpretation
</term>
requires strong
<term>
semantic domain
#13727Robustnatural language interpretation requires strong semantic domain models, fail-soft recovery heuristics, and very flexible control structures.
model,6-1-P81-1032,ak
interpretation
</term>
requires strong
<term>
semantic domain models
</term>
,
<term>
fail-soft recovery heuristics
#13732Robust natural language interpretation requires strongsemantic domain models, fail-soft recovery heuristics, and very flexible control structures.
tech,10-1-P81-1032,ak
<term>
semantic domain models
</term>
,
<term>
fail-soft recovery heuristics
</term>
, and very flexible
<term>
control
#13736Robust natural language interpretation requires strong semantic domain models,fail-soft recovery heuristics, and very flexible control structures.
tech,17-1-P81-1032,ak
heuristics
</term>
, and very flexible
<term>
control structures
</term>
. Although
<term>
single-strategy parsers
#13743Robust natural language interpretation requires strong semantic domain models, fail-soft recovery heuristics, and very flexiblecontrol structures.
tech,1-2-P81-1032,ak
control structures
</term>
. Although
<term>
single-strategy parsers
</term>
have met with a measure of success
#13747Althoughsingle-strategy parsers have met with a measure of success, a multi-strategy approach is shown to provide a much higher degree of flexibility, redundancy, and ability to bring task-specific domain knowledge (in addition to general linguistic knowledge) to bear on both grammatical and ungrammatical input.
other,25-2-P81-1032,ak
much higher degree of flexibility ,
<term>
redundancy
</term>
, and ability to bring
<term>
task-specific
#13771Although single-strategy parsers have met with a measure of success, a multi-strategy approach is shown to provide a much higher degree of flexibility,redundancy, and ability to bring task-specific domain knowledge (in addition to general linguistic knowledge) to bear on both grammatical and ungrammatical input.
other,31-2-P81-1032,ak
redundancy
</term>
, and ability to bring
<term>
task-specific domain knowledge
</term>
( in addition to
<term>
general linguistic
#13777Although single-strategy parsers have met with a measure of success, a multi-strategy approach is shown to provide a much higher degree of flexibility, redundancy, and ability to bringtask-specific domain knowledge (in addition to general linguistic knowledge) to bear on both grammatical and ungrammatical input.
other,38-2-P81-1032,ak
domain knowledge
</term>
( in addition to
<term>
general linguistic knowledge
</term>
) to bear on both
<term>
grammatical
#13784Although single-strategy parsers have met with a measure of success, a multi-strategy approach is shown to provide a much higher degree of flexibility, redundancy, and ability to bring task-specific domain knowledge (in addition togeneral linguistic knowledge) to bear on both grammatical and ungrammatical input.
other,46-2-P81-1032,ak
knowledge
</term>
) to bear on both
<term>
grammatical and ungrammatical input
</term>
. A
<term>
parsing algorithm
</term>
#13792Although single-strategy parsers have met with a measure of success, a multi-strategy approach is shown to provide a much higher degree of flexibility, redundancy, and ability to bring task-specific domain knowledge (in addition to general linguistic knowledge) to bear on bothgrammatical and ungrammatical input.
tech,1-3-P81-1032,ak
and ungrammatical input
</term>
. A
<term>
parsing algorithm
</term>
is presented that integrates several
#13798Aparsing algorithm is presented that integrates several different parsing strategies, with case-frame instantiation dominating.
tech,9-3-P81-1032,ak
that integrates several different
<term>
parsing strategies
</term>
, with
<term>
case-frame instantiation
#13806A parsing algorithm is presented that integrates several differentparsing strategies, with case-frame instantiation dominating.
tech,13-3-P81-1032,ak
<term>
parsing strategies
</term>
, with
<term>
case-frame instantiation
</term>
dominating . Each of these
<term>
parsing
#13810A parsing algorithm is presented that integrates several different parsing strategies, withcase-frame instantiation dominating.
tech,3-4-P81-1032,ak
instantiation
</term>
dominating . Each of these
<term>
parsing strategies
</term>
exploits different types of
<term>
#13817Each of theseparsing strategies exploits different types of knowledge; and their combination provides a strong framework in which to process conjunctions, fragmentary input, and ungrammatical structures, as well as less exotic, grammatically correct input.
other,9-4-P81-1032,ak
</term>
exploits different types of
<term>
knowledge
</term>
; and their combination provides
#13823Each of these parsing strategies exploits different types ofknowledge; and their combination provides a strong framework in which to process conjunctions, fragmentary input, and ungrammatical structures, as well as less exotic, grammatically correct input.
other,22-4-P81-1032,ak
strong framework in which to process
<term>
conjunctions
</term>
,
<term>
fragmentary input
</term>
,
#13836Each of these parsing strategies exploits different types of knowledge; and their combination provides a strong framework in which to processconjunctions, fragmentary input, and ungrammatical structures, as well as less exotic, grammatically correct input.
other,24-4-P81-1032,ak
process
<term>
conjunctions
</term>
,
<term>
fragmentary input
</term>
, and
<term>
ungrammatical structures
#13838Each of these parsing strategies exploits different types of knowledge; and their combination provides a strong framework in which to process conjunctions,fragmentary input, and ungrammatical structures, as well as less exotic, grammatically correct input.
other,28-4-P81-1032,ak
<term>
fragmentary input
</term>
, and
<term>
ungrammatical structures
</term>
, as well as less exotic ,
<term>
grammatically
#13842Each of these parsing strategies exploits different types of knowledge; and their combination provides a strong framework in which to process conjunctions, fragmentary input, andungrammatical structures, as well as less exotic, grammatically correct input.
other,37-4-P81-1032,ak
structures
</term>
, as well as less exotic ,
<term>
grammatically correct input
</term>
. Several specific
<term>
heuristics
#13851Each of these parsing strategies exploits different types of knowledge; and their combination provides a strong framework in which to process conjunctions, fragmentary input, and ungrammatical structures, as well as less exotic,grammatically correct input.
tech,2-5-P81-1032,ak
correct input
</term>
. Several specific
<term>
heuristics
</term>
for handling
<term>
ungrammatical input
#13857Several specificheuristics for handling ungrammatical input are presented within this multi-strategy framework.
other,5-5-P81-1032,ak
<term>
heuristics
</term>
for handling
<term>
ungrammatical input
</term>
are presented within this multi-strategy
#13860Several specific heuristics for handlingungrammatical input are presented within this multi-strategy framework.