Spectrally Compatible Iterative Water Filling

Spectrally Compatible Iterative Water Filling

<p/> <p>Until now static spectrum management has ensured that DSL lines in the same cable are spectrally compatible under worst-case crosstalk conditions. Recently dynamic spectrum management (DSM) has been proposed aiming at an increased capacity utilization by adaptation of the transmi...

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Main Authors: Cendrillon Raphael, Bogaert Etienne Vanden, Luise Marco, Zanier Francesca, Moonen Marc, Verlinden Jan, Bostoen Tom
Format: Article
Language:English
Published: SpringerOpen 2006-01-01
Series:EURASIP Journal on Advances in Signal Processing
Online Access:http://dx.doi.org/10.1155/ASP/2006/58380
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spelling doaj-f5834dbd5737496eb165dd74e7a6f8c52020-11-25T00:09:24ZengSpringerOpenEURASIP Journal on Advances in Signal Processing1687-61721687-61802006-01-0120061058380Spectrally Compatible Iterative Water FillingCendrillon RaphaelBogaert Etienne VandenLuise MarcoZanier FrancescaMoonen MarcVerlinden JanBostoen Tom<p/> <p>Until now static spectrum management has ensured that DSL lines in the same cable are spectrally compatible under worst-case crosstalk conditions. Recently dynamic spectrum management (DSM) has been proposed aiming at an increased capacity utilization by adaptation of the transmit spectra of DSL lines to the actual crosstalk interference. In this paper, a new DSM method for downstream ADSL is derived from the well-known iterative water-filling (IWF) algorithm. The amount of boosting of this new DSM method is limited, such that it is spectrally compatible with ADSL. Hence it is referred to as spectrally compatible iterative water filling (SC-IWF). This paper focuses on the performance gains of SC-IWF. This method is an autonomous DSM method (DSM level 1) and it will be investigated together with two other DSM level-1 algorithms, under various noise conditions, namely, iterative water-filling algorithm, and flat power back-off (flat PBO).</p> http://dx.doi.org/10.1155/ASP/2006/58380
collection DOAJ
language English
format Article
sources DOAJ
author Cendrillon Raphael
Bogaert Etienne Vanden
Luise Marco
Zanier Francesca
Moonen Marc
Verlinden Jan
Bostoen Tom
spellingShingle Cendrillon Raphael
Bogaert Etienne Vanden
Luise Marco
Zanier Francesca
Moonen Marc
Verlinden Jan
Bostoen Tom
Spectrally Compatible Iterative Water Filling
EURASIP Journal on Advances in Signal Processing
author_facet Cendrillon Raphael
Bogaert Etienne Vanden
Luise Marco
Zanier Francesca
Moonen Marc
Verlinden Jan
Bostoen Tom
author_sort Cendrillon Raphael
title Spectrally Compatible Iterative Water Filling
title_short Spectrally Compatible Iterative Water Filling
title_full Spectrally Compatible Iterative Water Filling
title_fullStr Spectrally Compatible Iterative Water Filling
title_full_unstemmed Spectrally Compatible Iterative Water Filling
title_sort spectrally compatible iterative water filling
publisher SpringerOpen
series EURASIP Journal on Advances in Signal Processing
issn 1687-6172
1687-6180
publishDate 2006-01-01
description <p/> <p>Until now static spectrum management has ensured that DSL lines in the same cable are spectrally compatible under worst-case crosstalk conditions. Recently dynamic spectrum management (DSM) has been proposed aiming at an increased capacity utilization by adaptation of the transmit spectra of DSL lines to the actual crosstalk interference. In this paper, a new DSM method for downstream ADSL is derived from the well-known iterative water-filling (IWF) algorithm. The amount of boosting of this new DSM method is limited, such that it is spectrally compatible with ADSL. Hence it is referred to as spectrally compatible iterative water filling (SC-IWF). This paper focuses on the performance gains of SC-IWF. This method is an autonomous DSM method (DSM level 1) and it will be investigated together with two other DSM level-1 algorithms, under various noise conditions, namely, iterative water-filling algorithm, and flat power back-off (flat PBO).</p>
url http://dx.doi.org/10.1155/ASP/2006/58380
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AT bogaertetiennevanden spectrallycompatibleiterativewaterfilling
AT luisemarco spectrallycompatibleiterativewaterfilling
AT zanierfrancesca spectrallycompatibleiterativewaterfilling
AT moonenmarc spectrallycompatibleiterativewaterfilling
AT verlindenjan spectrallycompatibleiterativewaterfilling
AT bostoentom spectrallycompatibleiterativewaterfilling
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