用于无监督特征选择的图和潜在表示的联合学习

IF 3.4 2区 计算机科学 Q2 COMPUTER SCIENCE, ARTIFICIAL INTELLIGENCE Applied Intelligence Pub Date : 2023-08-07 DOI:10.1007/s10489-023-04893-x
Xijiong Xie, Zhiwen Cao, Feixiang Sun
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引用次数: 1

摘要

真实世界应用中的数据样本不仅与高维特征相关,而且相互关联。为了充分利用数据样本之间的相互联系,最近的一些方法将潜在表示学习嵌入到无监督特征选择中,并被证明是有效的。尽管性能优越,但我们观察到,现有的方法首先预定义相似图,然后使用该图执行基于潜在表示学习的特征选择。由于固定图是从包含噪声特征的原始特征空间中获得的,并且图的构建过程与特征选择任务无关,这使得前缀图不可靠,最终阻碍了特征选择的效率。为了解决这个问题,我们提出了用于无监督特征选择的图和潜在表示的联合学习(JGLUFS)。与以往的方法不同,我们将自适应图构造集成到了一种基于潜在表示学习的特征选择方法中,这不仅减少了外部条件对图质量的影响,而且增强了图学习和潜在表示学习之间的联系,有利于特征选择任务。这三个基本任务,包括图学习、潜在表示学习和特征选择,相互配合,得出更好的解决方案。为了解决算法的优化问题,精心设计了一种具有保证收敛性的高效算法。大量的聚类实验验证了JGLUFS与几种最先进的算法相比的竞争力。
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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Joint learning of graph and latent representation for unsupervised feature selection

Data samples in real-world applications are not only related to high-dimensional features, but also related to each other. To fully exploit the interconnection between data samples, some recent methods embed latent representation learning into unsupervised feature selection and are proven effective. Despite superior performance, we observe that existing methods first predefine a similarity graph, and then perform latent representation learning based feature selection with this graph. Since fixed graph is obtained from the original feature space containing noisy features and the graph construction process is independent of the feature selection task, this makes the prefixed graph unreliable and ultimately hinders the efficiency of feature selection. To solve this problem, we propose joint learning of graph and latent representation for unsupervised feature selection (JGLUFS). Different from previous methods, we integrate adaptive graph construction into a feature selection method based on the latent representation learning, which not only reduces the impact of external conditions on the quality of graph but also enhances the connection between graph learning and latent representation learning for benefiting the feature selection task. These three basic tasks, including graph learning, latent representation learning and feature selection, cooperate with each other and lead to a better solution. An efficient algorithm with guaranteed convergence is carefully designed to solve the optimization problem of the algorithm. Extensive clustering experiments verify the competitiveness of JGLUFS compared to several state-of-the-art algorithms.

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来源期刊
Applied Intelligence
Applied Intelligence 工程技术-计算机:人工智能
CiteScore
6.60
自引率
20.80%
发文量
1361
审稿时长
5.9 months
期刊介绍: With a focus on research in artificial intelligence and neural networks, this journal addresses issues involving solutions of real-life manufacturing, defense, management, government and industrial problems which are too complex to be solved through conventional approaches and require the simulation of intelligent thought processes, heuristics, applications of knowledge, and distributed and parallel processing. The integration of these multiple approaches in solving complex problems is of particular importance. The journal presents new and original research and technological developments, addressing real and complex issues applicable to difficult problems. It provides a medium for exchanging scientific research and technological achievements accomplished by the international community.
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