A pythagorean hesitant fuzzy programming approach and its application to multi objective reliability optimization problem

Q3 Decision Sciences
Swarup Jana, Sahidul Islam
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引用次数: 0

Abstract

Decision-making problems can often be effectively solved using traditional optimization methods that have a clearly defined configuration. However, in real-world scenarios, decision-makers frequently encounter doubt or hesitation, making it challenging to precisely specify certain parameters. As a result, they often seek input from different experts, leading to conflicting values and varying levels of satisfaction among decision-makers. This uncertainty and lack of crisp values make decision-making problems inherently non-deterministic. In this paper, a novel Pythagorean hesitant fuzzy (PHF) programming method is designed to address the challenges of optimization problems with multiple objectives. Here PHF aggregation operators are used to aggregate the PHF memberships and non-memberships of the objectives. Additionally, to account the uncertainties of the parameters of the optimization problem Parabolic Pythagorean fuzzy number is used and centroid method is applied for defuzzification. We solved an example of multi objective optimization problem of manufacturing system to demonstrate our proposed method and finally, presented a case study on reliability optimization model for Life Support Systems, where the primary objectives are to maximize system reliability and minimize cost. The result is compared with other existing methods by degree of closeness.
毕达哥拉斯犹豫模糊规划方法及其在多目标可靠性优化问题中的应用
使用具有明确定义的配置的传统优化方法通常可以有效地解决决策问题。然而,在现实场景中,决策者经常会遇到怀疑或犹豫,这使得精确指定某些参数变得具有挑战性。因此,他们经常寻求不同专家的意见,导致价值观冲突和决策者满意度的不同。这种不确定性和缺乏清晰的价值观使得决策问题本质上是非确定性的。针对多目标优化问题的挑战,提出了一种新的毕达哥拉斯犹豫模糊规划方法。这里,PHF聚合操作符用于聚合目标的PHF成员和非成员关系。此外,考虑到优化问题参数的不确定性,采用抛物线毕达哥拉斯模糊数,并采用质心法进行去模糊化。以制造系统多目标优化问题为例,给出了以系统可靠性最大化和成本最小化为主要目标的生命保障系统可靠性优化模型。并将所得结果与现有方法的接近度进行了比较。
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来源期刊
Yugoslav Journal of Operations Research
Yugoslav Journal of Operations Research Decision Sciences-Management Science and Operations Research
CiteScore
2.50
自引率
0.00%
发文量
14
审稿时长
24 weeks
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