A low-complexity eigenfilter design method for channel shortening equalizers for DMT systems

Tkacenko, Andre; Vaidyanathan, P. P.

doi:10.1109/TCOMM.2003.814235

Published July 2003 | Version public

Journal Article Open

A low-complexity eigenfilter design method for channel shortening equalizers for DMT systems

We present a new low-complexity method for the design of channel shortening equalizers for discrete multitone (DMT) modulation systems using the eigenfilter approach. In contrast to other such methods which require a Cholesky decomposition for each delay parameter value used, ours requires only one such decomposition. Simulation results show that our method performs nearly optimally in terms of observed bit rate.

Additional Information

© Copyright 2003 IEEE. Reprinted with permission. Paper approved by N. Al-Dhahir, the Editor for Space–Time, OFDM, and Equalization of the IEEE Communications Society. Manuscript received May 6, 2002; revised August 6, 2002 and January 8, 2003. [Posted online: 2003-07-28] This work was supported in part by the Office of Naval Research under Grant N00014-99-1-1002.

Files

TKAieeetc03.pdf

Files (278.3 kB)

Name	Size	Download all
TKAieeetc03.pdf md5:cbc7f0e1fdfde2ee77256594b72cf302	278.3 kB	Preview Download

Additional details

Eprint ID: 6404
Resolver ID: CaltechAUTHORS:TKAieeetc03

Created: 2006-12-07

Created from EPrint's datestamp field
Updated: 2022-09-29

Created from EPrint's last_modified field

	All versions	This version
Views	2	2
Downloads	4	4
Data volume	1.1 MB	1.1 MB

A low-complexity eigenfilter design method for channel shortening equalizers for DMT systems

Additional Information

Files

TKAieeetc03.pdf

Files (278.3 kB)

Additional details

Identifiers

Dates

A low-complexity eigenfilter design method for channel shortening equalizers for DMT systems

Creators

Abstract

Additional Information

Files

TKAieeetc03.pdf

Files (278.3 kB)

Additional details

Identifiers

Dates