A novel Approach for Fully Intuitionistic Fuzzy Multi-Objective Fractional Transportation Problem
Alexandria Engineering Journal • 2021
معلومات البحث
المؤلفون
M.A. El Sayed, & Mahmoud A. Abo-Sinna
الكلمات المفتاحية
Multi-objective optimization;
Fractional transportation
problem;
Intuitionistic fuzzy set;
Accuracy function
المجلة العلمية
Alexandria Engineering Journal
الناشر
Elsevier
المجلد
60
العدد
1
الصفحات
1447-1463
publication.type
International
رابط البحث
Open Link
المواد المرفقة
Not Available
الملخص
This paper exhibits a novel approach for solving fully intuitionistic fuzzy multi-objective
fractional transportation problem (FIF-MOFTP). Because of the change of market policies, we
expect that the transportation cost, the shipped quantity, the source, and the destination parameters
are not generally exact. In this paper, a theorem which demonstrate that FIF-MOFTP is ever solvable
was presented. In our approach, the problem is converted into a linear one based on some
transformations. Then the linearized model is reduced to a crisp multi-objective transportation
problem utilizing the accuracy function for each objective. Moreover, various theorems that set
up the relation among the FIF-MOFTP and its equivalent crisp model using linear, hyperbolic,
and parabolic membership functions are also proofed. To approve the proposed approach, a
numerical example is incorporated. Deductions and future exploration of this paper are depicted
at end.
fractional transportation problem (FIF-MOFTP). Because of the change of market policies, we
expect that the transportation cost, the shipped quantity, the source, and the destination parameters
are not generally exact. In this paper, a theorem which demonstrate that FIF-MOFTP is ever solvable
was presented. In our approach, the problem is converted into a linear one based on some
transformations. Then the linearized model is reduced to a crisp multi-objective transportation
problem utilizing the accuracy function for each objective. Moreover, various theorems that set
up the relation among the FIF-MOFTP and its equivalent crisp model using linear, hyperbolic,
and parabolic membership functions are also proofed. To approve the proposed approach, a
numerical example is incorporated. Deductions and future exploration of this paper are depicted
at end.
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