• DocumentCode
    2607924
  • Title

    Robust blind joint data/channel estimation based on bilinear optimization

  • Author

    Gesbert, David ; Duhamel, Pierre

  • Author_Institution
    PAB/RGF/RCN, CNET, Issy-les-Moulineaux, France
  • fYear
    1996
  • fDate
    24-26 Jun 1996
  • Firstpage
    168
  • Lastpage
    171
  • Abstract
    In the context of digital radio communications, the signals are transmitted through propagation channels which introduce intersymbol interference (ISI). The channels can be represented as FIR filters which have to be identified and/or equalized for the transmitted symbols to be recovered. The problem of identifying/equalizing a digital communication channel based on its temporally or spatially oversampled output has gained much attention (single-input/multiple-output-SIMO-deconvolution). In this context, we propose a new joint data/channel estimation method. Our technique relies on the minimization of a bilinear MSE cost function, where the variables to be adjusted are the channel coefficient matrix and a linear equalizer. We show that this a priori choice of a linear equalization structure allows the derivation of a second-order unimodal criterion, leading to globally convergent identification/equalization schemes. The proposed method is completely blind in that (1) no assumption is required upon the transmitted sequence statistics or alphabet, and (2) it shows some robustness with respect to the channel order estimation problem (thus improving on most previous related works). It also allows the free choice of a delay in the equalizer so that output noise amplification can be optimized
  • Keywords
    FIR filters; adaptive equalisers; bilinear systems; convergence of numerical methods; deconvolution; delays; digital radio; filtering theory; intersymbol interference; matrix algebra; optimisation; parameter estimation; signal sampling; telecommunication channels; FIR filters; ISI; SIMO deconvolution; adaptive equaliser; bilinear MSE cost function minimisation; bilinear optimization; channel coefficient matrix; channel order estimation; delay; digital communication channel equalisation; digital communication channel identification; digital radio communications; globally convergent identification/equalization; intersymbol interference; linear equalizer; output noise amplification; propagation channels; robust blind joint data/channel estimation; second-order unimodal criterion; single-input/multiple-output deconvolution; spatially oversampled output; temporally oversampled output; transmitted symbols recovery; Channel estimation; Context; Cost function; Delay; Digital communication; Equalizers; Finite impulse response filter; Intersymbol interference; Noise robustness; Statistics;
  • fLanguage
    English
  • Publisher
    ieee
  • Conference_Titel
    Statistical Signal and Array Processing, 1996. Proceedings., 8th IEEE Signal Processing Workshop on (Cat. No.96TB10004
  • Conference_Location
    Corfu
  • Print_ISBN
    0-8186-7576-4
  • Type

    conf

  • DOI
    10.1109/SSAP.1996.534845
  • Filename
    534845