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JMLR
2012
2012
Sparse Higher-Order Principal Components Analysis
Traditional tensor decompositions such as the CANDECOMP / PARAFAC (CP) and Tucker decompositions yield higher-order principal components that have been used to understand tensor data in areas such as neuroimaging, microscopy, chemometrics, and remote sensing. Sparsity in high-dimensional matrix factorizations and principal components has been well-studied exhibiting many benefits; less attention has been given to sparsity in tensor decompositions. We propose two novel tensor decompositions that incorporate sparsity: the Sparse Higher-Order SVD and the Sparse CP Decomposition. The latter solves an 1-norm penalized relaxation of the single-factor CP optimization problem, thereby automatically selecting relevant features for each tensor factor. Through experiments and a scientific data analysis example, we demonstrate the utility of our methods for dimension reduction, feature selection, signal recovery, and exploratory data analysis of high-dimensional tensors.
Real-time TrafficDimensional Matrix | Exploratory Data Analysis | JMLR 2012 | Matrix Factorizations | Programming Languages |
Related Content
| Added | 27 Sep 2012 |
| Updated | 27 Sep 2012 |
| Type | Journal |
| Year | 2012 |
| Where | JMLR |
| Authors | Genevera Allen |
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