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On the Application of a Lexicographic Method to Fuzzy Linear Programming Problems

Boris Pérez‐Cañedo, José Luís Verdegay

2022Journal of Computational and Cognitive Engineering23 citationsDOIOpen Access PDF

Abstract

The literature on fuzzy variable linear programming (FVLP) and fuzzy number linear programming (FNLP) is prolific in terms of the number of available solution methods. In FVLP problems, only the decision variables and right-hand side values of the constraints are fuzzy numbers. In FNLP problems, except forthe decision variables, all parameters are fuzzy numbers. A widespread approach for solving problemsin FVLP and FNLP is to use linear ranking functions in order to transform the fuzzy problems into conventional ones. Previous studies have shown that linear ranking functions do not guarantee uniqueness of the optimal fuzzy objective values. In this paper, we use a lexicographic method to find unique optimal fuzzy objective values of such problems and compare the results with those obtained via linear ranking function approaches. The paper also discusses applications of the lexicographic method in diet and time–cost trade-off problems in fuzzy environments. Received: 3 February 2022 | Revised: 3 March 2022 | Accepted: 7 March 2022 Conflicts of Interest The authors declare that they have no conflicts of interest to this work.

Topics & Concepts

Lexicographical orderFuzzy numberMathematicsMathematical optimizationRanking (information retrieval)Linear programmingFuzzy logicFuzzy transportationFuzzy set operationsUniquenessDefuzzificationFuzzy classificationGoal programmingComputer scienceFuzzy setArtificial intelligenceCombinatoricsMathematical analysisOptimization and Mathematical ProgrammingMulti-Criteria Decision MakingFuzzy Systems and Optimization
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