一种基于模糊隐含粒度的特征选择方法

IF 8 2区计算机科学 Q1 AUTOMATION & CONTROL SYSTEMS

Engineering Applications of Artificial Intelligence Pub Date : 2025-06-13 DOI:10.1016/j.engappai.2025.111298

Shaowei Yan, Jin Qian, Ying Yu, Yongting Ni

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引用次数: 0

摘要

现实生活中的数据往往非常复杂，具有不同的类型和规模，并且包含大量冗余特征。如何对复杂数据进行特征选择是一个棘手的问题。为了解决这一问题，本文提出了一种基于模糊隐含粒度（FIGFS）驱动的基于滤波器的特征选择方法。首先，提出模糊自适应邻域半径构建信息颗粒，并在此基础上建立一系列多粒度模糊隐含信息测度来表征特征不确定性；其次，提出了颗粒一致性，分别在整体和局部层面捕捉特征与决策之间的相关性。然后，将粒度一致性和多粒度模糊隐含信息测度相结合，构造了一种新的多准则特征评价度量。最后，设计了一种兼容低维数据和高维数据的通用前向搜索特征选择算法。在24个公共数据集上与6种最先进的算法进行了比较，结果表明了该方法的可行性和优越性。

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A feature selection method driven by fuzzy implication granularity

The data in real life are often very complex, with different types and scales, and contain a large number of redundant features. How to perform feature selection for complex data is a tricky problem. To address the issue, this paper proposes a filter-based feature selection method driven by fuzzy implication granularity (FIGFS). Firstly, the fuzzy adaptive neighborhood radius is proposed to construct the information granules, and on this basis, a series of multi-granularity fuzzy implication information measures are established to characterize the feature uncertainty. Secondly, granular consistency is proposed to capture the correlation between features and decisions at the overall and local levels respectively. Then, a new multi-criteria feature evaluation metric is constructed by combining granularity consistency and multi-granularity fuzzy implication information measures. Finally, a general forward search feature selection algorithm compatible with low-dimensional data and high-dimensional data is designed. Compared with six state-of-the-art algorithms on 24 public datasets, the results show that our method is feasible and superior.

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来源期刊

Engineering Applications of Artificial Intelligence 工程技术-工程：电子与电气

CiteScore

9.60

自引率

10.00%

发文量

505

审稿时长

68 days

期刊介绍： Artificial Intelligence (AI) is pivotal in driving the fourth industrial revolution, witnessing remarkable advancements across various machine learning methodologies. AI techniques have become indispensable tools for practicing engineers, enabling them to tackle previously insurmountable challenges. Engineering Applications of Artificial Intelligence serves as a global platform for the swift dissemination of research elucidating the practical application of AI methods across all engineering disciplines. Submitted papers are expected to present novel aspects of AI utilized in real-world engineering applications, validated using publicly available datasets to ensure the replicability of research outcomes. Join us in exploring the transformative potential of AI in engineering.