Title :
Blind equalization of nonminimum phase channels: higher order cumulant based algorithm
Author :
Zheng, Fu-Chun ; McLaughlin, Stephen ; Mulgrew, Bernard
Author_Institution :
Dept. of Electr. Eng., Edinburgh Univ., UK
fDate :
2/1/1993 12:00:00 AM
Abstract :
Higher order cumulant analysis is applied to the blind equalization of linear time-invariant (LTI) nonminimum-phase channels. The channel model is moving-average based. To identify the moving average parameters of channels, a higher-order cumulant fitting approach is adopted in which a novel relay algorithm is proposed to obtain the global solution. In addition, the technique incorporates model order determination. The transmitted data are considered as independently identically distributed random variables over some discrete finite set (e.g., set {±1, ±3}). A transformation scheme is suggested so that third-order cumulant analysis can be applied to this type of data. Simulation examples verify the feasibility and potential of the algorithm. Performance is compared with that of the noncumulant-based Sato scheme in terms of the steady state MSE and convergence rate
Keywords :
convergence of numerical methods; equalisers; filtering and prediction theory; function approximation; statistical analysis; telecommunication channels; LTI channels; blind equalization; convergence rate; discrete finite set; global solution; higher-order cumulant fitting; higher-order statistics; independently identically distributed random variables; linear time-invariant channels; model order determination; moving average parameters; nonminimum phase channels; relay algorithm; steady state MSE; third-order cumulant analysis; transformation scheme; Algorithm design and analysis; Blind equalizers; Convergence; Deconvolution; Gaussian distribution; Prediction algorithms; Random variables; Relays; Signal processing algorithms; Steady-state; Technological innovation;
Journal_Title :
Signal Processing, IEEE Transactions on
