Negative filter
lexically, distributed, grammar 18
(576.3 per million)
other,1-1-C94-1080,ak
readable dictionaries
</term>
. The
<term>
behavioral specification
</term>
of an
<term>
object-oriented grammar
#26886Thebehavioral specification of an object-oriented grammar model is considered.
model,5-1-C94-1080,ak
behavioral specification
</term>
of an
<term>
object-oriented grammar model
</term>
is considered . The
<term>
model
</term>
#26890The behavioral specification of anobject-oriented grammar model is considered.
model,1-2-C94-1080,ak
grammar model
</term>
is considered . The
<term>
model
</term>
is based on
<term>
full lexicalization
#26897Themodel is based on full lexicalization, head-orientation via valency constraints and dependency relations, inheritance as a means for non-redundant lexicon specification, and concurrency of computation.
tech,5-2-C94-1080,ak
. The
<term>
model
</term>
is based on
<term>
full lexicalization
</term>
,
<term>
head-orientation
</term>
via
#26901The model is based onfull lexicalization, head-orientation via valency constraints and dependency relations, inheritance as a means for non-redundant lexicon specification, and concurrency of computation.
tech,8-2-C94-1080,ak
on
<term>
full lexicalization
</term>
,
<term>
head-orientation
</term>
via
<term>
valency constraints
</term>
#26904The model is based on full lexicalization,head-orientation via valency constraints and dependency relations, inheritance as a means for non-redundant lexicon specification, and concurrency of computation.
model,10-2-C94-1080,ak
</term>
,
<term>
head-orientation
</term>
via
<term>
valency constraints
</term>
and
<term>
dependency relations
</term>
#26906The model is based on full lexicalization, head-orientation viavalency constraints and dependency relations, inheritance as a means for non-redundant lexicon specification, and concurrency of computation.
other,13-2-C94-1080,ak
<term>
valency constraints
</term>
and
<term>
dependency relations
</term>
,
<term>
inheritance
</term>
as a means
#26909The model is based on full lexicalization, head-orientation via valency constraints anddependency relations, inheritance as a means for non-redundant lexicon specification, and concurrency of computation.
other,16-2-C94-1080,ak
<term>
dependency relations
</term>
,
<term>
inheritance
</term>
as a means for
<term>
non-redundant
#26912The model is based on full lexicalization, head-orientation via valency constraints and dependency relations,inheritance as a means for non-redundant lexicon specification, and concurrency of computation.
other,21-2-C94-1080,ak
<term>
inheritance
</term>
as a means for
<term>
non-redundant lexicon specification
</term>
, and
<term>
concurrency of computation
#26917The model is based on full lexicalization, head-orientation via valency constraints and dependency relations, inheritance as a means fornon-redundant lexicon specification, and concurrency of computation.
tech,26-2-C94-1080,ak
lexicon specification
</term>
, and
<term>
concurrency of computation
</term>
. The
<term>
computation model
</term>
#26922The model is based on full lexicalization, head-orientation via valency constraints and dependency relations, inheritance as a means for non-redundant lexicon specification, andconcurrency of computation.
model,1-3-C94-1080,ak
concurrency of computation
</term>
. The
<term>
computation model
</term>
relies upon the
<term>
actor paradigm
#26927Thecomputation model relies upon the actor paradigm, with concurrency entering through asynchronous message passing between actors.
tech,6-3-C94-1080,ak
computation model
</term>
relies upon the
<term>
actor paradigm
</term>
, with
<term>
concurrency
</term>
entering
#26932The computation model relies upon theactor paradigm, with concurrency entering through asynchronous message passing between actors.
tech,10-3-C94-1080,ak
the
<term>
actor paradigm
</term>
, with
<term>
concurrency
</term>
entering through
<term>
asynchronous
#26936The computation model relies upon the actor paradigm, withconcurrency entering through asynchronous message passing between actors.
tech,13-3-C94-1080,ak
concurrency
</term>
entering through
<term>
asynchronous message passing
</term>
between
<term>
actors
</term>
. In particular
#26939The computation model relies upon the actor paradigm, with concurrency entering throughasynchronous message passing between actors.
other,17-3-C94-1080,ak
asynchronous message passing
</term>
between
<term>
actors
</term>
. In particular , we here elaborate
#26943The computation model relies upon the actor paradigm, with concurrency entering through asynchronous message passing betweenactors.
tech,21-4-C94-1080,ak
grammar
</term>
and its corresponding
<term>
parser
</term>
can be specified in terms of
<term>
#26966In particular, we here elaborate on principles of how the global behavior of a lexically distributed grammar and its correspondingparser can be specified in terms of event type networks and event networks, resp.
other,28-4-C94-1080,ak
</term>
can be specified in terms of
<term>
event type networks
</term>
and
<term>
event networks
</term>
, resp
#26973In particular, we here elaborate on principles of how the global behavior of a lexically distributed grammar and its corresponding parser can be specified in terms ofevent type networks and event networks, resp.
other,32-4-C94-1080,ak
<term>
event type networks
</term>
and
<term>
event networks
</term>
, resp . We present
<term>
LHIP
</term>
#26977In particular, we here elaborate on principles of how the global behavior of a lexically distributed grammar and its corresponding parser can be specified in terms of event type networks andevent networks, resp.