Circular intuitionistic fuzzy decision making and its application
Künye
Çakır, E. ve Taş, Mehmet A. (2023). Circular intuitionistic fuzzy decision making and its application. Expert Systems with Applications, 225.Özet
Circular intuitionistic fuzzy set (C-IFS) is introduced by Atanassov in 2020 as an extension of intuitionistic fuzzy
sets. It is represented by a circle with a radius (r) of each element consist of degrees of membership and nonmembership. Several MCDM methods based on distance measures of C-IFS are already proposed in the literature. The primary objective of this study is the development, with the use of the C-IFS, of a new formulation of
functions to form a novel C-IFS multi-criteria decision making (MCDM) method. In addition to the existing
literature, this study contributes to circular intuitionistic fuzzy sets by proposing some formulations on radius
calculation and a new defuzzification function for C-IFS. The optimistic and pessimistic points are also defined on
the set to identify a novel score function and an accuracy function with decision-makers attitude (λ). When the
perspective of the decision-maker (λ) approaches 1, it means that C-IFS is defuzzified close to its optimistic point,
and when the perspective (λ) approaches 0, it is defuzzified close to the pessimistic point of C-IFS. With the use of
these functions, a novel C-IFS MCDM method is presented based on criteria weighting and alternative ranking
algorithms. This technique is applied to a supplier selection problem for a seamless supply chain network. A
sensitivity analysis is also performed to test the effect of parameter changes on the final results. The findings of
the study are compared with the results of a classical IFS-MCDM model. Since C-IFS is an extension of IFS, in
addition to similar rankings, more precise results are obtained by considering the optimistic and pessimistic
points by including the decision-maker attitude in the functions proposed for C-IFS. The study is a pioneer in the
C-IFS literature by presenting C-IFS defuzzification function and a new C-IFS MCDM procedure.