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Active Clustering Ensemble With Self-Paced Learning

Peng Zhou, Bicheng Sun, Xinwang Liu, Liang Du, Xuejun Li

2023IEEE Transactions on Neural Networks and Learning Systems42 citationsDOI

Abstract

A clustering ensemble provides an elegant framework to learn a consensus result from multiple prespecified clustering partitions. Though conventional clustering ensemble methods achieve promising performance in various applications, we observe that they may usually be misled by some unreliable instances due to the absence of labels. To tackle this issue, we propose a novel active clustering ensemble method, which selects the uncertain or unreliable data for querying the annotations in the process of the ensemble. To fulfill this idea, we seamlessly integrate the active clustering ensemble method into a self-paced learning framework, leading to a novel self-paced active clustering ensemble (SPACE) method. The proposed SPACE can jointly select unreliable data to label via automatically evaluating their difficulty and applying easy data to ensemble the clusterings. In this way, these two tasks can be boosted by each other, with the aim to achieve better clustering performance. The experimental results on benchmark datasets demonstrate the significant effectiveness of our method. The codes of this article are released in https://Doctor-Nobody.github.io/codes/space.zip.

Topics & Concepts

Cluster analysisComputer scienceEnsemble learningConsensus clusteringBenchmark (surveying)Machine learningData miningArtificial intelligenceCorrelation clusteringCURE data clustering algorithmGeodesyGeographyAdvanced Clustering Algorithms ResearchText and Document Classification TechnologiesFace and Expression Recognition