| other,5-6-P84-1064,bq | women . The process of transforming a <term> | disposition | </term> into a <term> proposition </term> is | #13590 The process of transforming adisposition into a proposition is referred to as explicitation or restoration. |
| other,10-8-P84-1064,bq | </term> , the <term> meaning </term> of a <term> | proposition | </term> , p , is represented as a procedure | #13637 In this approach to semantics, the meaning of aproposition, p, is represented as a procedure which tests, scores and aggregates the elastic constraints which are induced by p. |
| other,13-6-P84-1064,bq | proposition </term> is referred to as <term> | explicitation | </term> or <term> restoration </term> . <term> | #13598 The process of transforming a disposition into a proposition is referred to asexplicitation or restoration. |
| other,27-11-P84-1064,bq | concept which plays an important role in <term> | human cognition | </term> and is of relevance to <term> default | #13734 As a simple application of the techniques described in this paper, we formulate a definition of typicality -- a concept which plays an important role inhuman cognition and is of relevance to default reasoning. |
| other,7-7-P84-1064,bq | sets the stage for representing the <term> | meaning | </term> of a <term> proposition </term> through | #13609 Explicitation sets the stage for representing themeaning of a proposition through the use of test-score semantics (Zadeh, 1978, 1982). |
| other,10-7-P84-1064,bq | representing the <term> meaning </term> of a <term> | proposition | </term> through the use of <term> test-score | #13612 Explicitation sets the stage for representing the meaning of aproposition through the use of test-score semantics (Zadeh, 1978, 1982). |
| other,15-7-P84-1064,bq | proposition </term> through the use of <term> | test-score semantics | </term> ( Zadeh , 1978 , 1982 ) . In this | #13617 Explicitation sets the stage for representing the meaning of a proposition through the use oftest-score semantics (Zadeh, 1978, 1982). |
| tech,20-10-P84-1064,bq | management of uncertainty </term> in <term> | expert systems | </term> . As a simple application of the | #13704 Syllogistic reasoning with dispositions has an important bearing on commonsense reasoning as well as on the management of uncertainty inexpert systems. |
| other,22-3-P84-1064,bq | <term> proposition </term> with implicit <term> | fuzzy quantifiers | </term> which are approximations to all and | #13516 An idea which underlies the theory described in this paper is that a disposition may be viewed as a proposition with implicitfuzzy quantifiers which are approximations to all and always, e.g., almost all, almost always, most, frequently, etc. |
