A new Jacobi-like nonnegative joint diagonalization by congruence

Author

Lu Wang ; Albera, Laurent ; Hua Zhong Shu ; Senhadji, Lotfi

Author_Institution

INSERM, Rennes, France

fYear

2013

fDate

9-13 Sept. 2013

Firstpage

1

Lastpage

5

Abstract

A new joint diagonalization by congruence algorithm is presented, which allows the computation of a nonnegative joint diagonalizer. The nonnegativity constraint is ensured by means of a square change of variable. Then we propose a Jacobi-like approach using LU matrix factorization, which consists of formulating a high-dimensional optimization problem into several sequential one-dimensional subproblems. Numerical experiments emphasize the advantages of the proposed method, especially in the presence of bottlenecks such as for low SNR values and a small number of available matrices. An illustration of blind source separation shows the interest of the proposed algorithm.

Keywords

Jacobian matrices; blind source separation; independent component analysis; matrix decomposition; optimisation; Jacobi-like nonnegative joint diagonalization; LV matrix factorization; blind source separation; congruence algorithm; high-dimensional optimization problem; low SNR values; negativity constraint; real symmetric matrices; semi-nonnegative independent component analysis; sequential 1D subproblems; variable square change; Abstracts; Jacobian matrices; Joints; Signal to noise ratio; LU factorization; Nonnegative joint diagonalization by congruence; blind source separation; semi-nonnegative independent component analysis;

fLanguage

English

Publisher

ieee

Conference_Titel

Signal Processing Conference (EUSIPCO), 2013 Proceedings of the 21st European

Conference_Location

Marrakech

Type

conf

Filename

6811689