基于因果效应的聚类特征加权增强方法

IF 8.9 2区计算机科学 Q1 COMPUTER SCIENCE, ARTIFICIAL INTELLIGENCE

IEEE Transactions on Knowledge and Data Engineering Pub Date : 2024-11-28 DOI:10.1109/TKDE.2024.3508057

Fuyuan Cao;Xuechun Jing;Kui Yu;Jiye Liang

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引用次数: 0

摘要

特征加权的目的是根据特征在机器学习任务中的重要性来分配不同的权重。在聚类任务中，现有方法基于所有特征协同贡献的聚类结果来学习特征重要性，忽略了每个特征的独立作用。事实上，特征与聚类结果之间存在着潜在的因果关系，而因果效应高的特征往往对聚类更为关键。因此，我们提出了一种基于聚类因果效应的增强特征加权方法，计算每个特征对聚类结果的因果效应，从而获得每个特征的独立贡献。具体而言，我们首先确定特征之间的因果关系，并利用因果关系产生合理的治疗组。接下来，我们比较治疗组和对照组之间数据分布的变化，以确定每个特征的因果关系。最后，利用特征的因果效应来增强聚类驱动的权重学习。此外，我们还提出了因果效应的相对顺序一致性理论。实验结果表明，与最先进的聚类算法相比，在权重学习中使用因果效应有助于有效的收敛并获得更高的精度。

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FWCEC: An Enhanced Feature Weighting Method via Causal Effect for Clustering

Feature weighting aims to assign different weights to features based on their importance in machine learning tasks. In clustering tasks, the existing methods learn feature importance based on the clustering results derived from the collaborative contribution of all features, which overlooks the independent effect of each feature. In fact, there are underlying causal relationships between features and the clustering results, and the features with high causal effects are always more crucial for clustering. Therefore, we propose an enhanced F eature W eighting method via C ausal E ffect for C lustering, calculating the causal effect of each feature on the clustering results for obtaining the independent contribution of each feature. Specifically, we start by identifying the causal relationships among the features and utilizing the causal relationships to generate a reasonable treatment group. Next, we compare the changes in the data distribution between the treatment and control groups to determine the causal effect of each feature. Finally, the causal effects of features are used for enhancing the clustering-driven weight learning. Moreover, we present a theory of relative order consistency in causal effect. Experimental results demonstrate that utilizing causal effect in weight learning facilitates efficient convergence and achieves superior accuracy compared to state-of-the-art clustering algorithms.

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来源期刊

IEEE Transactions on Knowledge and Data Engineering 工程技术-工程：电子与电气

CiteScore

11.70

自引率

3.40%

发文量

515

审稿时长

6 months

期刊介绍： The IEEE Transactions on Knowledge and Data Engineering encompasses knowledge and data engineering aspects within computer science, artificial intelligence, electrical engineering, computer engineering, and related fields. It provides an interdisciplinary platform for disseminating new developments in knowledge and data engineering and explores the practicality of these concepts in both hardware and software. Specific areas covered include knowledge-based and expert systems, AI techniques for knowledge and data management, tools, and methodologies, distributed processing, real-time systems, architectures, data management practices, database design, query languages, security, fault tolerance, statistical databases, algorithms, performance evaluation, and applications.