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Multiple Kernel Driven Clustering With Locally Consistent and Selfish Graph in Industrial IoT

Zhenwen Ren, Mithun Mukherjee, Jaime Lloret, P. Venu

2020IEEE Transactions on Industrial Informatics38 citationsDOIOpen Access PDF

Abstract

In the cognitive computing of intelligent industrial Internet of Things, clustering is a fundamental machine learning problem to exploit the latent data relationships. To overcome the challenge of kernel choice for nonlinear clustering tasks, multiple kernel clustering (MKC) has attracted intensive attention. However, existing graph-based MKC methods mainly aim to learn a consensus kernel as well as an affinity graph from multiple candidate kernels, which cannot fully exploit the latent graph information. In this article, we propose a novel pure graph-based MKC method. Specifically, a new graph model is proposed to preserve the local manifold structure of the data in kernel space so as to learn multiple candidate graphs. Afterward, the latent consistency and selfishness of these candidate graphs are fully considered. Furthermore, a graph connectivity constraint is introduced to avoid requiring any postprocessing clustering step. Comprehensive experimental results demonstrate the superiority of our method.

Topics & Concepts

Cluster analysisComputer scienceExploitTheoretical computer scienceKernel (algebra)GraphTree kernelGraph kernelPolynomial kernelKernel methodData miningArtificial intelligenceMachine learningMathematicsSupport vector machineComputer securityCombinatoricsFace and Expression RecognitionAdvanced Clustering Algorithms ResearchAdvanced Graph Neural Networks
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