Sparse non-negative matrix factorizations via alternating non-negativity-constrained least squares for microarray data analysis
Georgia Institute of Technology
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Abstract
MOTIVATION: Many practical pattern recognition problems require non-negativity constraints. For example, pixels in digital images and chemical concentrations in bioinformatics are non-negative. Sparse non-negative matrix factorizations (NMFs) are useful when the degree of sparseness in the non-negative basis matrix or the non-negative coefficient matrix in an NMF needs to be controlled in approximating high-dimensional data in a lower dimensional space. RESULTS: In this article, we introduce a novel formulation of sparse NMF and show how the new formulation leads to a convergent sparse NMF algorithm via alternating non-negativity-constrained least squares. We apply our sparse NMF algorithm to cancer-class…
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2Topics & keywords
Topics
Keywords
- Non-negative matrix factorization
- Computer science
- Pattern recognition (psychology)
- Sparse matrix
- Cluster analysis
- Matrix decomposition
- Matrix (chemical analysis)
- Artificial intelligence
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