双曲模糊集的构造及其在多种新冠肺炎相关问题中的应用

IF 0.7 Q4 MATHEMATICS, INTERDISCIPLINARY APPLICATIONS
P. Dutta, G. Borah
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引用次数: 1

摘要

本文的核心目标是引入一个新的概念,称为双曲模糊集(HFS),其中,等级遵循乐观度和悲观度的乘积必须小于或等于一(1)的规定,而不是像IFS那样它们的总和不超过一(1。HFS的概念源于一种双曲线,它为决策者提供了极大的灵活性来表示模糊和不精确的信息。研究发现,在某些特定情况下,IFS、勾股模糊集(PFSs)和q阶正射空气模糊集(q-ROFSs)往往无法正确表达不确定信息,而HFS也往往通过适用于这些困惑的情况来克服这些限制。在本文中,我们首先定义了HFSs的一些基本运算定律和一些理想性质。其次,我们定义了一个新的分数函数,准确度函数,并建立了它们的一些性质。第三,针对HFS,提出了一种新的相似性和距离度量方法,该方法能够分别基于“相似度”和“远近系数”来区分不同的物理对象或备选方案。后来,通过进行细致的比较分析,展示了所有这些新定义的措施的优势。最后,这些措施已成功应用于各种与新冠肺炎相关的问题,如医疗决策、防病毒口罩选择、高效消毒剂选择和新冠肺炎有效药物选择。用我们新定义的措施获得的最终结果符合我们考虑的其他几种现有方法,所采用的决策策略简单、合理且有效。这项研究的重要发现肯定有助于医疗部门和其他一线工作人员采取必要措施,降低冠状病毒的传播强度,这样我们就有望在结束这场无情的流行病方面取得进展。[发件人]《新数学与自然计算》的版权归世界科学出版公司所有,未经版权持有人明确书面许可,不得将其内容复制或通过电子邮件发送到多个网站或发布到listserv。但是,用户可以打印、下载或通过电子邮件发送文章供个人使用。这可能会被删节。对复印件的准确性不作任何保证。用户应参考材料的原始发布版本以获取完整信息。(版权适用于所有人。)
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Construction of Hyperbolic Fuzzy Set and its applications in diverse COVID-19 associated problems
This paper’s core objective is to introduce a novel notion called hyperbolic fuzzy set (HFS) where, the grades follow the stipulation that the product of optimistic and pessimistic degree must be less than or equal to one (1), rather than their sum not exceeding one (1) as in case of IFSs. The concept of HFS originates from a hyperbola, which provides extreme flexibility to the decision makers in the representation of vague and imprecise information. It is observed that IFSs, Pythagorean fuzzy sets (PFSs), and q-rung orthopair fuzzy sets (Q-ROFSs) often failed to express the uncertain information properly under some specific situations, while HFS tends to overcome such limitations by being applicable under those perplexed situations too. In this paper, we first define some basic operational laws and few desirable properties of HFSs. Second, we define a novel score function, accuracy function, and also establish some of their properties. Third, a novel similarity and distance measure is proposed for HFSs that are capable of distinguishing between different physical objects or alternatives based on the grounds of “similitude degree” and “farness coefficient”, respectively. Later, the advantages of all of these newly defined measures have been showcased by performing a meticulous comparative analysis. Finally, these measures have been successfully applied in various COVID-19 associated problems such as medical decision-making, antivirus face-mask selection, efficient sanitizer selections, and effective medicine selection for COVID-19. The final results obtained with our newly defined measures comply with several other existing methods that we considered and the decision strategy adopted is simple, logical, and efficient. The significant findings of this study are certain to aid the healthcare department and other frontline workers to take necessary measures to reduce the intensity of the coronavirus transmission, so that we can hopefully progress toward the end of this ruthless pandemic. [ FROM AUTHOR] Copyright of New Mathematics & Natural Computation is the property of World Scientific Publishing Company and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full . (Copyright applies to all s.)
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来源期刊
New Mathematics and Natural Computation
New Mathematics and Natural Computation MATHEMATICS, INTERDISCIPLINARY APPLICATIONS-
CiteScore
1.70
自引率
10.00%
发文量
47
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