T.J. Endres scite author profile

Recent advances in blind identification of fractionally-spaced models for digital communication channels and blind fractionally-spaced equalizer adaptation rely on the assumption that the time span chosen for the fractionally-spaced equalizer exceeds that of the channel. This paper considers time-domain design formulas minimizing the mean-squared symbol recovery error achieved by a finite-length FIR fractionally-spaced equalizer with a time span shorter than the channel impulse response time span for white zero-mean QAM sources in the presence of white zero-mean channel noise. For minimum mean-squared error designs the symbol error rates achievable are plotted versus the ratio of the source variance t o the channel noise variance (with the channel model power normalized to achieve a received signal of unit variance) for different fractionally-spaced equalizer lengths on 64-Q AM for several TIBspaced channel models derived from experimental data. Our intent is to fuel the ongoing debate about fractionally-spaced equalizer length selection.

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On the robustness of the fractionally-spaced constant modulus criterion to channel order undermodeling .II

Endres

Anderson²,

Johnson³

et al.

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T.J. Endres

Blind equalization using the constant modulus criterion: a review

On the robustness of FIR channel identification from fractionally spaced received signal second-order statistics

Carrier independent blind initialization of a DFE

On fractionally-spaced equalizer design for digital microwave radio channels

On the robustness of the fractionally-spaced constant modulus criterion to channel order undermodeling .II

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