</term>
. The
<term>
interpretation
</term>
reflects
#23483This makes it possible to express the vagueness of the spatial concepts and to derive the maximally plausible interpretation from a chunk of information accumulated as theconstraints.
other,29-4-C92-4207,ak
<term>
spatial attributes
</term>
of the
<term>
entities
</term>
. This makes it possible to express
#23454To reconstruct the model, the authors extract the qualitative spatial constraints from the text, and represent them as the numerical constraints on the spatial attributes of theentities.
other,23-5-C92-4207,ak
interpretation
</term>
from a chunk of
<term>
information
</term>
accumulated as the
<term>
constraints
#23479This makes it possible to express the vagueness of the spatial concepts and to derive the maximally plausible interpretation from a chunk ofinformation accumulated as the constraints.
other,1-6-C92-4207,ak
as the
<term>
constraints
</term>
. The
<term>
interpretation
</term>
reflects the temporary belief about
#23486Theinterpretation reflects the temporary belief about the world.
other,11-1-C92-4207,ak
<term>
spatial descriptions
</term>
in
<term>
Japanese
</term>
. In order to understand the described
#23371This paper describes the understanding process of the spatial descriptions inJapanese.
other,16-5-C92-4207,ak
spatial concepts
</term>
and to derive the
<term>
maximally plausible interpretation
</term>
from a chunk of
<term>
information
</term>
#23472This makes it possible to express the vagueness of the spatial concepts and to derive themaximally plausible interpretation from a chunk of information accumulated as the constraints.
other,12-3-C92-4207,ak
program
<term>
SPRINT
</term>
, which takes
<term>
natural language texts
</term>
and produces a model of the described
#23413It is done by an experimental computer program SPRINT, which takesnatural language texts and produces a model of the described world.
model,21-4-C92-4207,ak
the text , and represent them as the
<term>
numerical constraints
</term>
on the
<term>
spatial attributes
</term>
#23446To reconstruct the model, the authors extract the qualitative spatial constraints from the text, and represent them as thenumerical constraints on the spatial attributes of the entities.
model,9-4-C92-4207,ak
the model , the authors extract the
<term>
qualitative spatial constraints
</term>
from the text , and represent them
#23434To reconstruct the model, the authors extract thequalitative spatial constraints from the text, and represent them as the numerical constraints on the spatial attributes of the entities.
other,22-2-C92-4207,ak
model of the global scene from the
<term>
scenic descriptions
</term>
drawing a space . It is done by an
#23395In order to understand the described world, the authors try to reconstruct the geometric model of the global scene from thescenic descriptions drawing a space.
other,25-4-C92-4207,ak
numerical constraints
</term>
on the
<term>
spatial attributes
</term>
of the
<term>
entities
</term>
. This
#23450To reconstruct the model, the authors extract the qualitative spatial constraints from the text, and represent them as the numerical constraints on thespatial attributes of the entities.
other,10-5-C92-4207,ak
possible to express the vagueness of the
<term>
spatial concepts
</term>
and to derive the
<term>
maximally
#23466This makes it possible to express the vagueness of thespatial concepts and to derive the maximally plausible interpretation from a chunk of information accumulated as the constraints.
other,8-1-C92-4207,ak
describes the understanding process of the
<term>
spatial descriptions
</term>
in
<term>
Japanese
</term>
. In order
#23368This paper describes the understanding process of thespatial descriptions in Japanese.
tool,8-3-C92-4207,ak
by an experimental computer program
<term>
SPRINT
</term>
, which takes
<term>
natural language
#23409It is done by an experimental computer programSPRINT, which takes natural language texts and produces a model of the described world.