Finite fuzzy sets, keychains and their applications

Finite fuzzy sets, keychains and their applications

The idea of keychains, an (n+1)-tuple of non-increasing real numbers in the unit interval always including 1, naturally arises in study of finite fuzzy set theory. They are a useful concept in modeling ideas of uncertainty especially those that arise in Economics, Social Sciences, Statistics and oth...

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Bibliographic Details
Main Author: Mahlasela, Zuko
Format: Others
Language:English
Published: Rhodes University 2009
Subjects:
Fuzzy sets
Finite groups
Lattice theory
Economics > Mathematical models
Online Access:http://hdl.handle.net/10962/d1005220
Description
Summary:The idea of keychains, an (n+1)-tuple of non-increasing real numbers in the unit interval always including 1, naturally arises in study of finite fuzzy set theory. They are a useful concept in modeling ideas of uncertainty especially those that arise in Economics, Social Sciences, Statistics and other subjects. In this thesis we define and study some basic properties of keychains with reference to Partially Ordered Sets, Lattices, Chains and Finite Fuzzy Sets. We then examine the role of keychains and their lattice diagrams in representing uncertainties that arise in such problems as in preferential voting patterns, outcomes of competitions and in Economics - Preference Relations.

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