Title :
Reduced complexity decision feedback equalization for digital subscriber loops
Author_Institution :
British Telecom Lab., Ipswich, UK
fDate :
8/1/1991 12:00:00 AM
Abstract :
Decision feedback equalizers (DFEs) are widely used in modern local network digital transmission systems to remove the intersymbol interference caused by slowly decaying pulse tails. A gradient descent algorithm for adapting a coefficient to model the slowly decaying portion of the tail is described. An equalization strategy is described that exploits prior knowledge of the nature of the subscriber loop channel, together with the new adaptation algorithm, to give reduced complexity DFE structures. The use of this algorithm in FIR and IIR equalizer structures is described. The use of this algorithm in FIR and IIR equalizers is quantitatively compared to a conventional DFE in terms of performance and implementation complexity. An analysis is presented describing the operation of the adaptation algorithm in the presence of noise. Simulation results illustrate the training of the algorithm and its stability in the presence of near-end crosstalk noise
Keywords :
crosstalk; digital communication systems; digital filters; equalisers; feedback; intersymbol interference; subscriber loops; FIR filter; IIR equaliser; IIR equalizer; adaptation algorithm; coefficient; decision feedback equalization; decision feedback equalizers; digital subscriber loops; digital transmission systems; gradient descent algorithm; intersymbol interference; local network; near-end crosstalk noise; noise; performance; reduced complexity DFE structures; simulation results; slowly decaying pulse tails; stability; subscriber loop channel; Crosstalk; DSL; Decision feedback equalizers; Finite impulse response filter; ISDN; Intersymbol interference; Signal processing algorithms; Tail; Transceivers; Transversal filters;
Journal_Title :
Selected Areas in Communications, IEEE Journal on
