Implementation aspects of nonlinear precoding for G.fast-Coding and legacy receivers

Rainer Strobel; Andreas Barthelme; Wolfgang Utschick

doi:10.23919/EUSIPCO.2017.8081179

Implementation aspects of nonlinear precoding for G.fast-Coding and legacy receivers

Rainer Strobel, Andreas Barthelme, Wolfgang Utschick

Chair of Signal Processing

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

4 Scopus citations

Abstract

Hybrid copper/fiber networks bridge the gap between the fiber link at the distribution point and the customer by using copper wires over the last meters. The G.fast technology has been designed to be used in such a fiber to the distribution point (FTTdp) network. Crosstalk management using MIMO precoding is a key to the required performance of FTTdp. With higher frequencies used on copper wires, nonlinear precoding schemes such as Tomlinson Harashima precoding are discussed as an alternative to linear precoding. This paper focuses on the advantages and losses of Tomlinson Harashima precoding used for coded transmission on twisted pair cable bundles. A performance loss model for the Modulo loss in coded transmission is presented. Interoperability between linear and nonlinear precoding is discussed.

Original language	English
Title of host publication	25th European Signal Processing Conference, EUSIPCO 2017
Publisher	Institute of Electrical and Electronics Engineers Inc.
Pages	111-115
Number of pages	5
ISBN (Electronic)	9780992862671
DOIs	https://doi.org/10.23919/EUSIPCO.2017.8081179
State	Published - 23 Oct 2017
Event	25th European Signal Processing Conference, EUSIPCO 2017 - Kos, Greece Duration: 28 Aug 2017 → 2 Sep 2017

Publication series

Name	25th European Signal Processing Conference, EUSIPCO 2017
Volume	2017-January

Conference

Conference	25th European Signal Processing Conference, EUSIPCO 2017
Country/Territory	Greece
City	Kos
Period	28/08/17 → 2/09/17

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10.23919/EUSIPCO.2017.8081179

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Strobel, R., Barthelme, A., & Utschick, W. (2017). Implementation aspects of nonlinear precoding for G.fast-Coding and legacy receivers. In 25th European Signal Processing Conference, EUSIPCO 2017 (pp. 111-115). Article 8081179 (25th European Signal Processing Conference, EUSIPCO 2017; Vol. 2017-January). Institute of Electrical and Electronics Engineers Inc.. https://doi.org/10.23919/EUSIPCO.2017.8081179

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title = "Implementation aspects of nonlinear precoding for G.fast-Coding and legacy receivers",

abstract = "Hybrid copper/fiber networks bridge the gap between the fiber link at the distribution point and the customer by using copper wires over the last meters. The G.fast technology has been designed to be used in such a fiber to the distribution point (FTTdp) network. Crosstalk management using MIMO precoding is a key to the required performance of FTTdp. With higher frequencies used on copper wires, nonlinear precoding schemes such as Tomlinson Harashima precoding are discussed as an alternative to linear precoding. This paper focuses on the advantages and losses of Tomlinson Harashima precoding used for coded transmission on twisted pair cable bundles. A performance loss model for the Modulo loss in coded transmission is presented. Interoperability between linear and nonlinear precoding is discussed.",

author = "Rainer Strobel and Andreas Barthelme and Wolfgang Utschick",

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doi = "10.23919/EUSIPCO.2017.8081179",

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Strobel, R, Barthelme, A & Utschick, W 2017, Implementation aspects of nonlinear precoding for G.fast-Coding and legacy receivers. in 25th European Signal Processing Conference, EUSIPCO 2017., 8081179, 25th European Signal Processing Conference, EUSIPCO 2017, vol. 2017-January, Institute of Electrical and Electronics Engineers Inc., pp. 111-115, 25th European Signal Processing Conference, EUSIPCO 2017, Kos, Greece, 28/08/17. https://doi.org/10.23919/EUSIPCO.2017.8081179

Implementation aspects of nonlinear precoding for G.fast-Coding and legacy receivers. / Strobel, Rainer; Barthelme, Andreas; Utschick, Wolfgang.
25th European Signal Processing Conference, EUSIPCO 2017. Institute of Electrical and Electronics Engineers Inc., 2017. p. 111-115 8081179 (25th European Signal Processing Conference, EUSIPCO 2017; Vol. 2017-January).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

TY - GEN

T1 - Implementation aspects of nonlinear precoding for G.fast-Coding and legacy receivers

AU - Strobel, Rainer

AU - Barthelme, Andreas

AU - Utschick, Wolfgang

PY - 2017/10/23

Y1 - 2017/10/23

N2 - Hybrid copper/fiber networks bridge the gap between the fiber link at the distribution point and the customer by using copper wires over the last meters. The G.fast technology has been designed to be used in such a fiber to the distribution point (FTTdp) network. Crosstalk management using MIMO precoding is a key to the required performance of FTTdp. With higher frequencies used on copper wires, nonlinear precoding schemes such as Tomlinson Harashima precoding are discussed as an alternative to linear precoding. This paper focuses on the advantages and losses of Tomlinson Harashima precoding used for coded transmission on twisted pair cable bundles. A performance loss model for the Modulo loss in coded transmission is presented. Interoperability between linear and nonlinear precoding is discussed.

AB - Hybrid copper/fiber networks bridge the gap between the fiber link at the distribution point and the customer by using copper wires over the last meters. The G.fast technology has been designed to be used in such a fiber to the distribution point (FTTdp) network. Crosstalk management using MIMO precoding is a key to the required performance of FTTdp. With higher frequencies used on copper wires, nonlinear precoding schemes such as Tomlinson Harashima precoding are discussed as an alternative to linear precoding. This paper focuses on the advantages and losses of Tomlinson Harashima precoding used for coded transmission on twisted pair cable bundles. A performance loss model for the Modulo loss in coded transmission is presented. Interoperability between linear and nonlinear precoding is discussed.

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Implementation aspects of nonlinear precoding for G.fast-Coding and legacy receivers

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