Title :
Crosstalk identification in xDSL systems
Author :
Zeng, Chaohuang ; Aldana, Carlos ; Salvekar, Atul A. ; Cioffi, John M.
Author_Institution :
Dept. of Electr. Eng., Stanford Univ., CA, USA
fDate :
8/1/2001 12:00:00 AM
Abstract :
Crosstalk among telephone lines in the same or neighboring bundles is a major impairment in current xDSL systems. This paper proposes a novel idea of an impartial third party that identifies the crosstalk coupling functions among the twisted pairs in these xDSL systems. The crosstalk identification technique includes the following four major procedures: (1) the transmitted and received signals from each DSL modem for a predefined time period are collected and sent to the third party; (2) the signals are resampled according to the clock rate of the receiver of interest; (3) the signals´ timing differences are estimated by cross correlation; and (4) the crosstalk coupling functions are estimated using the least-squares method. The performance of the cross correlation and least-squares methods is analyzed to determine the amount of data needed for identification. Simulation results show that the proposed methods can identify the crosstalk functions accurately and are consistent with theoretical analysis. These identified crosstalk functions can be used to significantly improve the data rate (e.g., multiuser detection) and to facilitate provisioning, maintenance, and diagnosis of the xDSL systems
Keywords :
correlation methods; crosstalk; digital subscriber lines; electromagnetic coupling; least squares approximations; modems; signal sampling; timing; DSL modem; cross correlation; crosstalk coupling functions; crosstalk identification; data rate; least-squares method; multiuser detection; performance analysis; received signals; receiver clock rate; signal resampling; simulation results; system diagnosis; system maintenance; system provisioning; telephone lines; timing difference estimation; transmitted signals; twisted pairs; xDSL systems; Analytical models; Clocks; Crosstalk; DSL; Modems; Multiuser detection; Performance analysis; Signal processing; Telephony; Timing;
Journal_Title :
Selected Areas in Communications, IEEE Journal on