Negative filter
full, lexicalization 17
(544.3 per million)
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.
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,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.
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.
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.
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,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.
lr,15-4-C94-1080,ak
principles of how the global behavior of a
<term>
lexically distributed grammar
</term>
and its corresponding
<term>
parser
#26960In particular, we here elaborate on principles of how the global behavior of alexically distributed grammar and its corresponding parser can be specified in terms of event type networks and event networks, resp.
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.
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.
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.
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.
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.
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.
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,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,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.