An Application on an Information System via Nano Ordered Topology

IF 0.5 Q3 MATHEMATICS
S. H. Shalil, S. A. El-Sheikh, S. A. Kandil
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引用次数: 0

Abstract

Rough set theory is commonly used to handle uncertainty in various applications. In order to broaden its application scope, the classical rough set model based on equivalence relations, it has been extended to include an additional partial order relation. This partial order relation represents an m-nano flou set, as defined in Section 5, between rough sets and is particularly useful in determining the levels of impact that key factors have on heart failure. The primary objective of the current research is to introduce a novel approximation method based on equivalence relations and partial order relations (ordered approximation spaces), which extends Pawlak's method and investigates related results. The paper establishes the equivalence between our approach and Pawlak's approach under the condition that we have an equivalence relation and a partial order relation that satisfies the criteria required for it to be considered an equality relation. The second objective is to extend the concept of nano topology to include nano ordered topology, which involves nano increasing or decreasing topological spaces. The research indicates that incorporating nano increasing or decreasing topological spaces results in enhanced data analysis accuracy when compared to solely utilizing nano topological spaces. This observation aligns with the discussions in the referenced work by Jayalakshmi. The findings of this research have the potential to significantly impact medical research related to heart failure. Improved methods for handling uncertainty and quantifying the influence of various factors can lead to more accurate and reliable predictions and diagnoses. Ultimately, this work aims to contribute to advancements in heart failure treatment and prevention. By bridging the gap between traditional rough set theory and the nuanced intricacies of heart failure analysis, our research strives to advance our comprehension of this critical medical condition and, in turn, support progress in heart failure treatment and prevention.
通过纳米有序拓扑结构在信息系统中的应用
粗糙集理论常用于处理各种应用中的不确定性。为了扩大其应用范围,基于等价关系的经典粗糙集模型已被扩展到包括额外的偏序关系。根据第 5 节中的定义,这种偏序关系代表粗糙集之间的 m-nano flou 集,在确定关键因素对心力衰竭的影响程度时特别有用。当前研究的主要目的是介绍一种基于等价关系和偏序关系(有序逼近空间)的新型逼近方法,该方法扩展了 Pawlak 的方法并研究了相关结果。本文确定了我们的方法与 Pawlak 方法之间的等价性,条件是我们有一个等价关系和一个部分有序关系,并且满足将其视为等价关系所需的标准。第二个目标是扩展纳米拓扑学的概念,使其包括纳米有序拓扑学,这涉及纳米递增或递减拓扑空间。研究表明,与只利用纳米拓扑空间相比,纳入纳米递增或递减拓扑空间可提高数据分析的准确性。这一观察结果与 Jayalakshmi 的参考文献中的讨论结果一致。这项研究的发现有可能对有关心力衰竭的医学研究产生重大影响。改进处理不确定性和量化各种因素影响的方法可以带来更准确、更可靠的预测和诊断。最终,这项工作旨在推动心衰治疗和预防的进步。通过弥合传统粗糙集理论与心力衰竭分析的细微复杂性之间的差距,我们的研究力图推进我们对这一关键医疗条件的理解,进而支持心力衰竭治疗和预防的进步。
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来源期刊
CiteScore
1.10
自引率
20.00%
发文量
0
期刊介绍: The Research Bulletin of Institute for Mathematical Research (MathDigest) publishes light expository articles on mathematical sciences and research abstracts. It is published twice yearly by the Institute for Mathematical Research, Universiti Putra Malaysia. MathDigest is targeted at mathematically informed general readers on research of interest to the Institute. Articles are sought by invitation to the members, visitors and friends of the Institute. MathDigest also includes abstracts of thesis by postgraduate students of the Institute.
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