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Hyper-Graph Regularized Constrained NMF for Selecting Differentially Expressed Genes and Tumor Classification

Cui-Na Jiao, Ying-Lian Gao, Na Yu, Jin‐Xing Liu, Lianyong Qi

2020IEEE Journal of Biomedical and Health Informatics53 citationsDOI

Abstract

Non-negative Matrix Factorization (NMF) is a dimensionality reduction approach for learning a parts-based and linear representation of non-negative data. It has attracted more attention because of that. In practice, NMF not only neglects the manifold structure of data samples, but also overlooks the priori label information of different classes. In this paper, a novel matrix decomposition method called Hyper-graph regularized Constrained Non-negative Matrix Factorization (HCNMF) is proposed for selecting differentially expressed genes and tumor sample classification. The advantage of hyper-graph learning is to capture local spatial information in high dimensional data. This method incorporates a hyper-graph regularization constraint to consider the higher order data sample relationships. The application of hyper-graph theory can effectively find pathogenic genes in cancer datasets. Besides, the label information is further incorporated in the objective function to improve the discriminative ability of the decomposition matrix. Supervised learning with label information greatly improves the classification effect. We also provide the iterative update rules and convergence proofs for the optimization problems of HCNMF. Experiments under The Cancer Genome Atlas (TCGA) datasets confirm the superiority of HCNMF algorithm compared with other representative algorithms through a set of evaluations.

Topics & Concepts

Non-negative matrix factorizationMatrix decompositionDiscriminative modelComputer scienceGraphDimensionality reductionArtificial intelligencePattern recognition (psychology)MathematicsTheoretical computer scienceEigenvalues and eigenvectorsPhysicsQuantum mechanicsGene expression and cancer classificationMachine Learning in BioinformaticsGenomics and Chromatin Dynamics
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