#13630When people use natural language in natural settings, they often use it ungrammatically, missing out or repeating words, breaking-off and restarting, speaking infragments, etc..
tech,14-4-P80-1026,ak
parsing flexibilities
</term>
that such a
<term>
system
</term>
should provide . We go , on to describe
#13689In this paper, we outline a set of parsing flexibilities that such asystem should provide.
other,19-1-P80-1026,ak
ungrammatically , missing out or repeating
<term>
words
</term>
, breaking-off and restarting , speaking
#13622When people use natural language in natural settings, they often use it ungrammatically, missing out or repeatingwords, breaking-off and restarting, speaking in fragments, etc..
tech,9-4-P80-1026,ak
In this paper , we outline a set of
<term>
parsing flexibilities
</term>
that such a
<term>
system
</term>
should
#13684In this paper, we outline a set ofparsing flexibilities that such a system should provide.
tech,9-5-P80-1026,ak
on to describe
<term>
FlexP
</term>
, a
<term>
bottom-up pattern-matching parser
</term>
that we have designed and implemented
#13702We go, on to describe FlexP, abottom-up pattern-matching parser that we have designed and implemented to provide these flexibilities for restricted natural language input to a limited-domain computer system.
tech,29-5-P80-1026,ak
natural language input
</term>
to a
<term>
limited-domain computer system
</term>
. Robust
<term>
natural language interpretation
#13722We go, on to describe FlexP, a bottom-up pattern-matching parser that we have designed and implemented to provide these flexibilities for restricted natural language input to alimited-domain computer system.
tech,21-5-P80-1026,ak
designed and implemented to provide these
<term>
flexibilities
</term>
for
<term>
restricted natural language
#13714We go, on to describe FlexP, a bottom-up pattern-matching parser that we have designed and implemented to provide theseflexibilities for restricted natural language input to a limited-domain computer system.
tech,2-3-P80-1026,ak
deviations with little difficulty . If a
<term>
computer system
</term>
wishes to accept
<term>
natural language
#13652If acomputer system wishes to accept natural language input from its users on a routine basis, it must display a similar indifference.
other,3-1-P80-1026,ak
interfaces
</term>
. When people use
<term>
natural language
</term>
in natural settings , they often
#13606When people usenatural language in natural settings, they often use it ungrammatically, missing out or repeating words, breaking-off and restarting, speaking in fragments, etc..
other,23-5-P80-1026,ak
these
<term>
flexibilities
</term>
for
<term>
restricted natural language input
</term>
to a
<term>
limited-domain computer
#13716We go, on to describe FlexP, a bottom-up pattern-matching parser that we have designed and implemented to provide these flexibilities forrestricted natural language input to a limited-domain computer system.
tool,6-5-P80-1026,ak
should provide . We go , on to describe
<term>
FlexP
</term>
, a
<term>
bottom-up pattern-matching
#13699We go, on to describeFlexP, a bottom-up pattern-matching parser that we have designed and implemented to provide these flexibilities for restricted natural language input to a limited-domain computer system.
other,7-3-P80-1026,ak
computer system
</term>
wishes to accept
<term>
natural language input
</term>
from its users on a routine basis
#13657If a computer system wishes to acceptnatural language input from its users on a routine basis, it must display a similar indifference.