tech,6-2-C94-1080,bq |
considered . The model is based on full
<term>
|
lexicalization
|
</term>
,
<term>
head-orientation
</term>
via
|
#21017
The 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,8-2-C94-1080,bq |
full
<term>
lexicalization
</term>
,
<term>
|
head-orientation
|
</term>
via
<term>
valency constraints
</term>
|
#21019
The 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,16-2-C94-1080,bq |
<term>
dependency relations
</term>
,
<term>
|
inheritance
|
</term>
as a means for non-redundant
<term>
|
#21027
The 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,10-3-C94-1080,bq |
<term>
actor paradigm
</term>
, with
<term>
|
concurrency
|
</term>
entering through
<term>
asynchronous
|
#21051
The computation model relies upon the actor paradigm, with concurrency entering through asynchronous message passing between actors. |
tech,21-4-C94-1080,bq |
grammar
</term>
and its corresponding
<term>
|
parser
|
</term>
can be specified in terms of
<term>
|
#21081
In 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 and event networks, resp. |