Title :
Optimum decision delay of the finite-length DFE
Author :
Gong, Yu ; Cowan, Colin F N
Author_Institution :
Dept. of Electr. & Electron. Eng., Queen´´s Univ. of Belfast, UK
Abstract :
This work investigates the optimum decision delay and tap-length of the finite-length decision feedback equalizer. First we show that, if the feedback filter (FBF) length Nb is equal to or larger than the channel memory v and the decision delay Δ is smaller than the feedforward filter (FFF) length Nf, then only the first Δ+1 elements of the FFF can be nonzero. Based on this result we prove that the maximum effective FBF length is equal to the channel memory v, and if Nb≥v and Nf is long enough, the optimum decision delay that minimizes the MMSE is Nf-1.
Keywords :
adaptive filters; decision feedback equalisers; delays; telecommunication channels; DFE; FBF; adaptive filter; effective tap-length; feedback filter; finite-length decision feedback equalizer; optimum decision delay; Closed-form solution; Communication channels; Decision feedback equalizers; Delay effects; Feedforward systems; Field-flow fractionation; Finite impulse response filter; Helium; Intersymbol interference; Stability; Adaptive filter; DFE; decision delay; decision feedback equalizer; tap-length;
Journal_Title :
Signal Processing Letters, IEEE
DOI :
10.1109/LSP.2004.836943
