Title :
A Direct Algorithm for Nonorthogonal Approximate Joint Diagonalization
Author :
Chabriel, Gilles ; Barrère, Jean
Author_Institution :
IM2NP, Univ. du Sud Toulon, La Garde, France
Abstract :
While a pair of N × N matrices can almost always be exactly and simultaneously diagonalized by a generalized eigendecomposition, no exact solution exists in the case of a set with more than two matrices. This problem, termed approximate joint diagonalization (AJD), is instrumental in blind signal processing. When the set of matrices to be jointly diagonalized includes at least N linearly independent matrices, we propose a suboptimal but closed-form solution for AJD in the direct least-squares sense. The corresponding non-iterative algorithm is given the acronym DIEM (DIagonalization using Equivalent Matrices). Extensive numerical simulations show that DIEM is both fast and accurate compared to the state-of-the-art iterative AJD algorithms.
Keywords :
blind source separation; eigenvalues and eigenfunctions; least squares approximations; matrix algebra; DIEM; blind signal processing; diagonalization using equivalent matrices; direct algorithm; generalized eigendecomposition; least squares method; linearly independent matrices; noniterative algorithm; nonorthogonal AJD; nonorthogonal approximate joint diagonalization; numerical simulation; Closed-form solutions; Covariance matrix; Eigenvalues and eigenfunctions; Joints; Manganese; Matrix decomposition; Minimization; Approximate joint diagonalization (AJD); blind source separation (BSS); direct algorithm; exact joint diagonalization (EJD); non-iterative algorithm; simultaneous diagonalization;
Journal_Title :
Signal Processing, IEEE Transactions on
DOI :
10.1109/TSP.2011.2171682
