The case for an interval-based representation of linguistic truth |
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Authors: | Daniel G Schwartz |
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Institution: | Department of Computer Science and The Institute for Cognitive Science, Florida State University, Tallahassee, FL 32306, USA |
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Abstract: | This paper develops an interval-based approach to the concept of linguistic truth. A special-purpose interval logic is defined, and it is argued that, for many applications, this logic provides a potentially useful alternative to the conventional fuzzy logic.The key idea is to interpret the numerical truth value v(p) of a proposition p as a degree of belief in the logical certainty of p, in which case p is regarded as true, for example, if v(p) falls within a certain range, say, the interval 0.7, 1]. This leads to a logic which, although being only a special case of fuzzy logic, appears to be no less linguistically correct and at the same time offers definite advantages in terms of mathematical simplicity and computational speed.It is also shown that this same interval logic can be generalized to a lattice-based logic having the capacity to accommodate propositions p which employ fuzzy predicates of type 2. |
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Keywords: | Approximate reasoning Fuzzy logic Linguistic truth Interval logic Multivalent logic Truth qualification |
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