Multi-polar Q-hesitant Fuzzy Soft Implicative and Positive Implicative Ideals in BCK/BCI-algebras.

IF 1 Q1 MATHEMATICS
M. Alshayea
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引用次数: 0

Abstract

This paper focuses on exploring restricted mathematical concepts within the domain of BCK/BCI-algebras, specifically delving into the intricate realm of Multi-polar Q-hesitant fuzzy soft implicative and positive implicative ideals. BCK and BCI-algebras are pivotal structures in mathematical logic and algebraic systems, finding widespread applications in fields like computer science and artificial intelligence. Our contribution lies in the introduction and thorough investigation of the innovative notions of multi-polar Q-hesitant fuzzy soft implicative and positive implicative ideals, uniquely tailored for BCK/BCI-algebras. These ideals exhibit exceptional flexibility in managing uncertain and hesitant information, serving as potent tools for modeling and solvingreal-world problems characterized by imprecise or incomplete data. This study rigorously defines and explores the foundational properties of multi-polar Q-hesitant fuzzy soft implicative ideals, underscoring their relevance and applicability within BCK/BCI-algebras. Additionally, we present the concept of positive implicative ideals, establishing their interconnectedness with multi-polar Q-hesitant fuzzy soft implicative ideals. Our investigation delves into these ideals’ algebraic and logical facets, offering valuable insights into their mutual interactions and significance within the context of BCK/BCI-algebras. To facilitate practical implementation, we develop algorithms and methodologies for identifying and characterizing multi-polar Q-hesitant fuzzy soft implicative and positive implicative ideals. These computational tools enable efficient decision-making in scenariosinvolving uncertainty. Through illustrative examples and case studies, we showcase the potential of these ideals in handling complex, uncertain information, demonstrating their efficacy in aiding problem-solving processes. This research contributes significantly to advancing BCK/BCI-algebra theory by introducing innovative mathematical structures that bridge the gap between fuzzy logic, soft computing, and implicative ideals. The proposed multi-polar Q-hesitant fuzzy soft implicativeand positive implicative ideals open new avenues for addressing real-world problems characterized by imprecision and uncertainty. As such, they represent a valuable addition to the field of algebraic structures and their applications.
BCK/BCI-algebras 中的多极 Q-hesitant Fuzzy Soft Implicative and Positive Implicative Ideals。
本文重点探讨 BCK/BCI-gebras 领域中的限制性数学概念,特别是深入研究多极 Q-hesitant 模糊软蕴涵和正蕴涵理想的复杂领域。BCK 和 BCI-algebras 是数理逻辑和代数系统中的关键结构,在计算机科学和人工智能等领域有着广泛的应用。我们的贡献在于引入并深入研究了多极 Q-hesitant 模糊软蕴涵和正蕴涵理想的创新概念,这些概念是为 BCK/BCI 矩阵量身定制的。这些理想在管理不确定和犹豫不决的信息方面表现出非凡的灵活性,是模拟和解决以不精确或不完整数据为特征的现实世界问题的有力工具。本研究严格定义并探索了多极 Q-hesitant 模糊软隐含理想的基本属性,强调了它们在 BCK/BCI 对象中的相关性和适用性。此外,我们还提出了正蕴涵理想的概念,建立了它们与多极 Q-hesitant 模糊软蕴涵理想的相互联系。我们深入研究了这些理想的代数和逻辑方面,为它们在 BCK/BCI 对象中的相互影响和意义提供了宝贵的见解。为了便于实际应用,我们开发了用于识别和描述多极 Qhesitant 模糊软隐含和正隐含理想的算法和方法。这些计算工具有助于在涉及不确定性的情况下做出高效决策。通过示例和案例研究,我们展示了这些理想在处理复杂、不确定信息方面的潜力,证明了它们在帮助解决问题过程中的功效。这项研究通过引入创新的数学结构,在模糊逻辑、软计算和蕴含式理想之间架起了一座桥梁,为推进 BCK/BCI 代数理论的发展做出了重大贡献。所提出的多极 Qhesitant 模糊软隐含和正隐含理想为解决现实世界中以不精确和不确定为特征的问题开辟了新的途径。因此,它们是对代数结构及其应用领域的宝贵补充。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
CiteScore
1.30
自引率
28.60%
发文量
156
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