多粒度可变精度模糊粗糙集与 TOPSIS 法相结合的三向决策

IF 3.2 3区 计算机科学 Q2 COMPUTER SCIENCE, ARTIFICIAL INTELLIGENCE
Chengzhao Jia, Lingqiang Li, Xinru Li
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引用次数: 0

摘要

本研究提出了一种创新的模糊粗糙集模型来解决多属性决策问题。首先,我们介绍了一种新颖的多粒度变精度模糊粗糙集模型,其中包括三个基础模型。研究证明,该模型具有良好的代数和拓扑特性,尤其值得注意的是其可比性。随后,通过将新模型与 TOPSIS 方法相结合,提出了一种新的三向决策模型。在此框架内,多粒度变精度模糊粗糙集的三个基本模型被应用于三种方法来构建相对损失函数。这就产生了具有三种不同策略的三向决策模型。最后,我们将提出的三向决策模型用于产妇风险检测。为了验证我们提出的方法的有效性、稳定性和可靠性,我们进行了多次实验和比较。实验结果表明,所提出的方法准确地对产妇进行了分类和排序。总体而言,我们的方法提供了多种策略和容错功能,并且对大量数据有效。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A three-way decision combining multi-granularity variable precision fuzzy rough set and TOPSIS method
This study proposed an innovative fuzzy rough set model to address multi-attribute decision-making problems. Initially, we introduced a novel model of multi-granularity variable precision fuzzy rough sets, which included three foundational models. This model was demonstrated to possess favorable algebraic and topological properties, and particularly noteworthy the comparable property. Subsequently, by integrating the novel model with the TOPSIS method, a novel three-way decision model was proposed. Within this framework, three fundamental models of multi-granularity variable precision fuzzy rough sets were applied in three methods to construct relative loss functions. This resulted in a three-way decision model with three distinct strategies. Finally, we implemented the proposed three-way decision model for risk detection in maternal women. Several experiments and comparisons were conducted to validate the effectiveness, stability, and reliability of our proposed approach. The experimental results indicated that the proposed method accurately classified and ranked maternal women. Overall, our approach offered multiple strategies and fault tolerance and was found to be effective for a large amount of data.
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来源期刊
International Journal of Approximate Reasoning
International Journal of Approximate Reasoning 工程技术-计算机:人工智能
CiteScore
6.90
自引率
12.80%
发文量
170
审稿时长
67 days
期刊介绍: The International Journal of Approximate Reasoning is intended to serve as a forum for the treatment of imprecision and uncertainty in Artificial and Computational Intelligence, covering both the foundations of uncertainty theories, and the design of intelligent systems for scientific and engineering applications. It publishes high-quality research papers describing theoretical developments or innovative applications, as well as review articles on topics of general interest. Relevant topics include, but are not limited to, probabilistic reasoning and Bayesian networks, imprecise probabilities, random sets, belief functions (Dempster-Shafer theory), possibility theory, fuzzy sets, rough sets, decision theory, non-additive measures and integrals, qualitative reasoning about uncertainty, comparative probability orderings, game-theoretic probability, default reasoning, nonstandard logics, argumentation systems, inconsistency tolerant reasoning, elicitation techniques, philosophical foundations and psychological models of uncertain reasoning. Domains of application for uncertain reasoning systems include risk analysis and assessment, information retrieval and database design, information fusion, machine learning, data and web mining, computer vision, image and signal processing, intelligent data analysis, statistics, multi-agent systems, etc.
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