Title :
A Novel HOS Approach for Blind Channel Equalization
Author :
Pinchas, Monika ; Bobrovsky, Ben Zion
Author_Institution :
Dept. of Electr. Eng. Syst., Tel Aviv Univ.
fDate :
3/1/2007 12:00:00 AM
Abstract :
We present in this paper a new equalization method with over 8 dB advantage in the residual ISI compared to the classical results presented by Godard and Shalvi/Weinstein (kurtosis criteria). A systematic derivation is presented for obtaining the conditional expectation for f(x/z) that does not rely on the knowledge of the convolutional noise power nor imposes any restrictions on the probability distribution of the (unobserved) input sequence. We use Edgeworth series which is directly related to quasi moments thus to cumulants, and the Laplace integral method. Although the Edgeworth expansion and the Laplace integral method are well known in non-linear optimal filtering theory, they have not yet been used in the field of blind equalization
Keywords :
Laplace transforms; blind equalisers; higher order statistics; intersymbol interference; series (mathematics); statistical distributions; Edgeworth series; HOS approach; Laplace integral method; blind channel equalization; conditional expectation; convolutional noise power; higher order statistics; intersymbol interference; kurtosis criteria; probability distribution; quasi moments; residual ISI; systematic derivation; Bayesian methods; Bit error rate; Blind equalizers; Degradation; Filtering theory; Higher order statistics; Instruction sets; Intersymbol interference; Phase locked loops; Probability distribution;
Journal_Title :
Wireless Communications, IEEE Transactions on
DOI :
10.1109/TWC.2007.04404
