Title :
A Nyquist-rate adaptation algorithm for fractionally spaced equalizers
Author :
Siller, Curtis A., Jr. ; Debus, Walter
Author_Institution :
AT&T Bell Lab., North Andover, MA, USA
fDate :
28 Nov-1 Dec 1988
Abstract :
Describes a time-domain Nyquist-rate algorithm that broadens the utility of fractional equalizers by permitting least-mean-square or true zero-forcing adaptation, more rapid convergence relative to synchronous coefficient updating, user specification of the end-to-end Nyquist channel, and elimination of the coefficient drift phenomenon. The investigation includes an analytical description of the algorithm, a functional circuit architecture, and reference to a computer simulation illustrating stable equalizer operation in the presence of dispersion on a digital subscriber loop
Keywords :
equalisers; subscriber loops; Nyquist channel; circuit architecture; coefficient drift stabilisation; computer simulation; digital subscriber loop; dispersion; fractionally spaced equalizers; least mean square adaptation; time-domain Nyquist-rate algorithm; zero-forcing adaptation; Convergence; Data communication; Delay lines; Digital communication; Equalizers; Gaussian noise; Least squares approximation; Quadrature amplitude modulation; Time domain analysis; Timing;
Conference_Titel :
Global Telecommunications Conference, 1988, and Exhibition. 'Communications for the Information Age.' Conference Record, GLOBECOM '88., IEEE
Conference_Location :
Hollywood, FL
DOI :
10.1109/GLOCOM.1988.26009
