Blind maximum likelihood sequence detection

Maximum a posteriori (MAP) sequence detection for channels with intersymbol interference (ISI) has previously required knowledge of the channel sampled impulse response (SIR). Generally the SIR coefficients are determined via least mean square (LMS) or recursive least squares (RLS) estimation algorithms. For many unguided media channels such as mobile radio and high frequency (HF) radio which exhibit a time-varying SIR, these estimators must be adaptive. Adaptive estimators often fail to track adequately and are a major source of detector deterioration. A novel, blind maximum likelihood sequence detection (BMLSD) formulation without the need for external channel SIR estimation is proposed. A new method for resolving ambiguity in the channel delay is also included. The BMLSD performance is evaluated via simulation.

[1]  Jr. G. Forney,et al.  The viterbi algorithm , 1973 .

[2]  John G. Proakis,et al.  Digital Communications , 1983 .

[3]  Gene H. Golub,et al.  Matrix computations , 1983 .

[4]  R. H. Farrell Techniques of multivariate calculation , 1976 .

[5]  Jason B. Scholz,et al.  Blind maximum likelihood sequence estimation for fading channels , 1994, Proceedings of ICASSP '94. IEEE International Conference on Acoustics, Speech and Signal Processing.

[6]  William G. Cowley,et al.  Blind maximum likelihood sequence detection over fast fading channels , 1996, 1996 8th European Signal Processing Conference (EUSIPCO 1996).

[7]  G. David Forney,et al.  Maximum-likelihood sequence estimation of digital sequences in the presence of intersymbol interference , 1972, IEEE Trans. Inf. Theory.

[8]  W. G. Cowley,et al.  Fractionally spaced blind maximum likelihood sequence detection over fast fading fractionally-spaced channels , 1996, 1996 IEEE Digital Signal Processing Workshop Proceedings.

[9]  Simon Haykin,et al.  Adaptive filter theory (2nd ed.) , 1991 .