Title :
A difference metric implementation for maximum-likelihood sequence estimation of binary input intersymbol interference channels
Author :
Fitzpatrick, Kelly Knudson ; Milstein, Laurence B. ; Wolf, Jack K.
Author_Institution :
Quantum Corp., USA
Abstract :
Maximum-likelihood sequence estimation (MLSE) is typically performed using the Viterbi algorithm to update state metrics. In this paper, we describe an equivalent method of performing MLSE detection by updating difference metrics rather than state metrics. The difference metric implementation is a generalization of the technique described by Ferguson (1972) for the (1-D) channel. The difference metric implementation applies to any binary input intersymbol interference (ISI) channel corrupted by independent and identically distributed Gaussian noise. For ISI channels with arbitrary coefficients, the difference metric implementation is significantly less complex than the state metric implementation. However, for partial response channels with integer coefficients, the reduction in complexity is not as dramatic
Keywords :
Gaussian noise; binary sequences; computational complexity; estimation theory; intersymbol interference; maximum likelihood detection; maximum likelihood estimation; partial response channels; 1D channel; ISI; MLSE detection; Viterbi algorithm; binary input intersymbol interference channels; difference metric implementation; difference metrics; identically distributed Gaussian noise; integer coefficients; maximum-likelihood sequence estimation; partial response channels; state metrics; Delay effects; Gaussian noise; Intersymbol interference; Lifting equipment; Maximum likelihood detection; Maximum likelihood estimation; Partial response channels; Polynomials; State estimation; Viterbi algorithm;
Conference_Titel :
Global Telecommunications Conference, 1995. GLOBECOM '95., IEEE
Print_ISBN :
0-7803-2509-5
DOI :
10.1109/GLOCOM.1995.502052
