DocumentCode
1300449
Title
Approximate reasoning as a basis for rule-based expert systems
Author
Yager, Ronald R.
Author_Institution
Machine Intelligence Inst., Iona Coll., New Rochelle, NY, USA
Issue
4
fYear
1984
Firstpage
636
Lastpage
643
Abstract
The concept of a rule-based expert system that includes data and production rules is discussed. It is shown how the theory of approximate reasoning developed by L.A. Zadeh (New York, Wiley, 1979) provides a natural format for representing the knowledge and performing the inferences in the rule-based expert systems. The representation ability of the systems is extended by providing a new structure for including the rules that only require the satisfaction to some subset of the requirements in its antecedent. This is accomplished by use of fuzzy quantifiers. A methodology is also provided for the inclusion of a form of uncertainty in the expert system associated with the belief attributed to the data and production rules.
Keywords
approximation theory; expert systems; fuzzy set theory; approximate reasoning; expert system; fuzzy quantifiers; inferences; knowledge; production rules; rule-based expert systems; subset; uncertainty; Aggregates; Cognition; Cybernetics; Expert systems; Joints; Vehicles;
fLanguage
English
Journal_Title
Systems, Man and Cybernetics, IEEE Transactions on
Publisher
ieee
ISSN
0018-9472
Type
jour
DOI
10.1109/TSMC.1984.6313337
Filename
6313337
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