A blind multichannel identification algorithm robust to order overestimation

Active research in blind single input multiple output (SIMO) channel identification has led to a variety of second-order statistics-based algorithms, particularly the subspace (SS) and the linear prediction (LP) approaches. The SS algorithm shows good performance when the channel output is corrupted...

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Published in	IEEE transactions on signal processing Vol. 50; no. 6; pp. 1449 - 1458
Main Authors	Gazzah, H., Regalia, P.A., Delmas, J.-P., Abed-Meraim, K.
Format	Journal Article
Language	English
Published	New York, NY IEEE 01.06.2002 Institute of Electrical and Electronics Engineers The Institute of Electrical and Electronics Engineers, Inc. (IEEE)
Subjects	Algorithms Applied sciences Bandwidth Blind equalizers Blinds Channels Communication channels Computer science; control theory; systems Control theory. Systems Detection, estimation, filtering, equalization, prediction Exact sciences and technology Higher order statistics Image restoration Impulse response Information, signal and communications theory Linear prediction Mathematical analysis Modelling and identification Noise Noise robustness Prediction algorithms Signal and communications theory Signal processing algorithms Signal restoration Signal, noise Smoothing methods Statistics Studies Telecommunications and information theory Performance evaluation Statistical method Second order Simulation Transmission channel Robustness Blind identification System identification Algorithm Blind equalization
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ISSN	1053-587X 1941-0476
DOI	10.1109/TSP.2002.1003068

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Abstract	Active research in blind single input multiple output (SIMO) channel identification has led to a variety of second-order statistics-based algorithms, particularly the subspace (SS) and the linear prediction (LP) approaches. The SS algorithm shows good performance when the channel output is corrupted by noise and available for a finite time duration. However, its performance is subject to exact knowledge of the channel order, which is not guaranteed by current order detection techniques. On the other hand, the linear prediction algorithm is sensitive to observation noise, whereas its robustness to channel order overestimation is not always verified when the channel statistics are estimated. We propose a new second-order statistics-based blind channel identification algorithm that is truly robust to channel order overestimation, i.e., it is able to accurately estimate the channel impulse response from a finite number of noisy channel measurements when the assumed order is arbitrarily greater than the exact channel order. Another interesting feature is that the identification performance can be enhanced by increasing a certain smoothing factor. Moreover, the proposed algorithm proves to clearly outperform the LP algorithm. These facts are justified theoretically and verified through simulations.
AbstractList	Active research in blind single input multiple output (SIMO) channel identification has led to a variety of second-order statistics-based algorithms, particularly the subspace (SS) and the linear prediction (LP) approaches. The SS algorithm shows good performance when the channel output is corrupted by noise and available for a finite time duration. However, its performance is subject to exact knowledge of the channel order, which is not guaranteed by current order detection techniques. On the other hand, the linear prediction algorithm is sensitive to observation noise, whereas its robustness to channel order overestimation is not always verified when the channel statistics are estimated. We propose a new second-order statistics-based blind channel identification algorithm that is truly robust to channel order overestimation, i.e., it is able to accurately estimate the channel impulse response from a finite number of noisy channel measurements when the assumed order is arbitrarily greater than the exact channel order. Another interesting feature is that the identification performance can be enhanced by increasing a certain smoothing factor. Moreover, the proposed algorithm proves to clearly outperform the LP algorithm. These facts are justified theoretically and verified through simulations Another interesting feature is that the identification performance can be enhanced by increasing a certain smoothing factor. [...] the proposed algorithm proves to clearly outperform the LP algorithm. Active research in blind single input multiple output (SIMO) channel identification has led to a variety of second-order statistics-based algorithms, particularly the subspace (SS) and the linear prediction (LP) approaches. The SS algorithm shows good performance when the channel output is corrupted by noise and available for a finite time duration. However, its performance is subject to exact knowledge of the channel order, which is not guaranteed by current order detection techniques. On the other hand, the linear prediction algorithm is sensitive to observation noise, whereas its robustness to channel order overestimation is not always verified when the channel statistics are estimated. We propose a new second-order statistics-based blind channel identification algorithm that is truly robust to channel order overestimation, i.e., it is able to accurately estimate the channel impulse response from a finite number of noisy channel measurements when the assumed order is arbitrarily greater than the exact channel order. Another interesting feature is that the identification performance can be enhanced by increasing a certain smoothing factor. Moreover, the proposed algorithm proves to clearly outperform the LP algorithm. These facts are justified theoretically and verified through simulations.
Author	Delmas, J.-P. Gazzah, H. Regalia, P.A. Abed-Meraim, K.
Author_xml	– sequence: 1 givenname: H. surname: Gazzah fullname: Gazzah, H. organization: Departement Commun., Images et Traitement de l'Inf., Inst. Nat. des Telecommun. (INT), Evry, France – sequence: 2 givenname: P.A. surname: Regalia fullname: Regalia, P.A. – sequence: 3 givenname: J.-P. surname: Delmas fullname: Delmas, J.-P. – sequence: 4 givenname: K. surname: Abed-Meraim fullname: Abed-Meraim, K.
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SubjectTerms	Algorithms Applied sciences Bandwidth Blind equalizers Blinds Channels Communication channels Computer science; control theory; systems Control theory. Systems Detection, estimation, filtering, equalization, prediction Exact sciences and technology Higher order statistics Image restoration Impulse response Information, signal and communications theory Linear prediction Mathematical analysis Modelling and identification Noise Noise robustness Prediction algorithms Signal and communications theory Signal processing algorithms Signal restoration Signal, noise Smoothing methods Statistics Studies Telecommunications and information theory
Title	A blind multichannel identification algorithm robust to order overestimation
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