Title :
Nonnegative Joint Diagonalization by Congruence Based on LU Matrix Factorization
Author :
Lu Wang ; Albera, Laurent ; Kachenoura, A. ; Huazhong Shu ; Senhadji, Lotfi
Author_Institution :
U1099, INSERM, France
Abstract :
In this letter, a new algorithm for joint diagonalization of a set of matrices by congruence is proposed to compute the nonnegative joint diagonalizer. The nonnegativity constraint is imposed by means of a square change of variables. Then we formulate the high-dimensional optimization problem into several sequential polynomial subproblems using LU matrix factorization. Numerical experiments on simulated matrices emphasize the advantages of the proposed method, especially in the case of degeneracies such as for low SNR values and a small number of matrices. An illustration of blind separation of nuclear magnetic resonance spectroscopy confirms the validity and improvement of the proposed method.
Keywords :
NMR spectroscopy; blind source separation; independent component analysis; matrix decomposition; optimisation; polynomials; LU matrix factorization; blind separation; high-dimensional optimization problem; independent component analysis; nonnegative joint diagonalization; nonnegativity constraint; nuclear magnetic resonance spectroscopy; sequential polynomial subproblems; Joints; Nuclear magnetic resonance; Signal processing algorithms; Signal to noise ratio; Sparse matrices; Spectroscopy; Symmetric matrices; Blind source separation; LU factorization; independent component analysis; nonnegative joint diagonalization by congruence; nuclear magnetic resonance spectroscopy;
Journal_Title :
Signal Processing Letters, IEEE
DOI :
10.1109/LSP.2013.2267797
