2017
DOI: 10.1007/s11045-017-0506-8
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Preconditioned optimization algorithms solving the problem of the non unitary joint block diagonalization: application to blind separation of convolutive mixtures

Abstract: This article addresses the problem of the Non Unitary Joint Block Diagonalization (NU − JBD) of a given set of complex matrices for the blind separation of convolutive mixtures of sources. We propose new different iterative optimization schemes based on Conjugate Gradient, Preconditioned Conjugate Gradient, Levenberg-Marquardt and Quasi-Newton methods. We perform also a study to determine which of these algorithms offer the best compromise between efficiency and convergence speed in the studied context. To be … Show more

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Cited by 3 publications
(2 citation statements)
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“…Approximate S-JBD. Optimization based schemes for the approximate S-JBD problem are discussed in the recent paper [6] (see also [5,21,35] and references therein). The authors of [5] proposed a variant of Algorithm 1.1 in which the null Algorithm 1.1 Computation of S-JBD problem (1.6) under the conditions in Theorem 1.10 Input: K × K symmetric matrices V 1 , .…”
Section: Introductionmentioning
confidence: 99%
“…Approximate S-JBD. Optimization based schemes for the approximate S-JBD problem are discussed in the recent paper [6] (see also [5,21,35] and references therein). The authors of [5] proposed a variant of Algorithm 1.1 in which the null Algorithm 1.1 Computation of S-JBD problem (1.6) under the conditions in Theorem 1.10 Input: K × K symmetric matrices V 1 , .…”
Section: Introductionmentioning
confidence: 99%
“…Blindly and via the BSS, the principle of the solution is based on hypotheses concerning the mixing system as well as hypotheses on the nature of the source signals. Related to the type of mixing system we find in the literature proposals that deal with the linear problem for the instantaneous case [11] and also others that deal with the convolutive case [12][13][14] as we also find solutions that deal with the nonlinear problem [15]. Regarding the assumptions of the source signals, the major tool applied to solve the BSS problem is called independent component analysis (ICA) where the solutions that apply this technique, are based on the concept of statistical independence of the signals, to recover the original sources.…”
Section: Introductionmentioning
confidence: 99%