MIMO channel blind identification in the presence of spatially correlated noise

Walid Hachem; François Desbouvries; Philippe Loubaton

doi:10.1109/78.984756

MIMO channel blind identification in the presence of spatially correlated noise

Walid Hachem
, François Desbouvries
, Philippe Loubaton

Research output: Contribution to journal › Article › peer-review

Abstract

We address the problem of the second-order blind identification of a multiple-input multiple-output (MIMO) transfer function in the presence of additive noise. The additive noise is assumed to be (temporally) white, i.e., uncorrelated in time, but we do not make any assumption on its spatial correlation. This problem is thus equivalent to the second-order blind identification of a MIMO transfer function in the noiseless case but from a partial auto-covariance function {R _n} _n≠0. One approach consists of computing the missing central covariance coefficient R ₀ from this partial auto-covariance sequence. It can be described simply within the algebraic framework of rational subspaces. We propose an identifiability result that requires very mild assumptions on the transfer function to be estimated. Practical subspace-based identification algorithms are deduced and tested via simulations.

Original language	English
Pages (from-to)	651-661
Number of pages	11
Journal	IEEE Transactions on Signal Processing
Volume	50
Issue number	3
DOIs	https://doi.org/10.1109/78.984756
Publication status	Published - 1 Mar 2002
Externally published	Yes

Keywords

Colored noise
MIMO blind identification
Rational spaces
Stochastic realization

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10.1109/78.984756

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title = "MIMO channel blind identification in the presence of spatially correlated noise",

abstract = "We address the problem of the second-order blind identification of a multiple-input multiple-output (MIMO) transfer function in the presence of additive noise. The additive noise is assumed to be (temporally) white, i.e., uncorrelated in time, but we do not make any assumption on its spatial correlation. This problem is thus equivalent to the second-order blind identification of a MIMO transfer function in the noiseless case but from a partial auto-covariance function \{R n\} n≠0. One approach consists of computing the missing central covariance coefficient R 0 from this partial auto-covariance sequence. It can be described simply within the algebraic framework of rational subspaces. We propose an identifiability result that requires very mild assumptions on the transfer function to be estimated. Practical subspace-based identification algorithms are deduced and tested via simulations.",

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T1 - MIMO channel blind identification in the presence of spatially correlated noise

AU - Hachem, Walid

AU - Desbouvries, François

AU - Loubaton, Philippe

PY - 2002/3/1

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N2 - We address the problem of the second-order blind identification of a multiple-input multiple-output (MIMO) transfer function in the presence of additive noise. The additive noise is assumed to be (temporally) white, i.e., uncorrelated in time, but we do not make any assumption on its spatial correlation. This problem is thus equivalent to the second-order blind identification of a MIMO transfer function in the noiseless case but from a partial auto-covariance function {R n} n≠0. One approach consists of computing the missing central covariance coefficient R 0 from this partial auto-covariance sequence. It can be described simply within the algebraic framework of rational subspaces. We propose an identifiability result that requires very mild assumptions on the transfer function to be estimated. Practical subspace-based identification algorithms are deduced and tested via simulations.

AB - We address the problem of the second-order blind identification of a multiple-input multiple-output (MIMO) transfer function in the presence of additive noise. The additive noise is assumed to be (temporally) white, i.e., uncorrelated in time, but we do not make any assumption on its spatial correlation. This problem is thus equivalent to the second-order blind identification of a MIMO transfer function in the noiseless case but from a partial auto-covariance function {R n} n≠0. One approach consists of computing the missing central covariance coefficient R 0 from this partial auto-covariance sequence. It can be described simply within the algebraic framework of rational subspaces. We propose an identifiability result that requires very mild assumptions on the transfer function to be estimated. Practical subspace-based identification algorithms are deduced and tested via simulations.

KW - Colored noise

KW - MIMO blind identification

KW - Rational spaces

KW - Stochastic realization

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DO - 10.1109/78.984756

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JO - IEEE Transactions on Signal Processing

JF - IEEE Transactions on Signal Processing

IS - 3

ER -

MIMO channel blind identification in the presence of spatially correlated noise

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Keywords

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