Simple and Causal Copper Cable Model Suitable for G.fast Frequencies

Diogo Acatauassu; Stefan Höst; Chenguang Lu; Miguel Berg; Aldebaro Klautau; Per Ola Börjesson

doi:10.1109/TCOMM.2014.2364585

Simple and Causal Copper Cable Model Suitable for G.fast Frequencies

Diogo Acatauassu, Stefan Höst, Chenguang Lu, Miguel Berg, Aldebaro Klautau, Per Ola Börjesson

Department of Electrical and Information Technology

Research output: Contribution to journal › Article › peer-review

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Abstract

G.fast is a new standard from the International Telecommunication Union, which targets 1 Gb/s over short copper loops using frequencies up to 212 MHz. This new technology requires accurate parametric cable models for simulation, design, and performance evaluation tests. Some existing copper cable models were designed for the very high speed digital subscriber line spectra, i.e., frequencies up to 30 MHz, and adopt assumptions that are violated when the frequency range is extended to G.fast frequencies. This paper introduces a simple and causal cable model that is able to accurately characterize copper loops composed by single or multiple segments, in both frequency and time domains. Results using G.fast topologies show that, apart from being accurate, the new model is attractive due to its low computational cost and closed-form expressions for fitting its parameters to measurement data.

Original language	English
Pages (from-to)	4040-4051
Journal	IEEE Transactions on Communications
Volume	62
Issue number	11
DOIs	https://doi.org/10.1109/TCOMM.2014.2364585
Publication status	Published - 2014

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Electrical Engineering, Electronic Engineering, Information Engineering

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10.1109/TCOMM.2014.2364585

SimpleandCausalCopperCableModel2014

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title = "Simple and Causal Copper Cable Model Suitable for G.fast Frequencies",

abstract = "G.fast is a new standard from the International Telecommunication Union, which targets 1 Gb/s over short copper loops using frequencies up to 212 MHz. This new technology requires accurate parametric cable models for simulation, design, and performance evaluation tests. Some existing copper cable models were designed for the very high speed digital subscriber line spectra, i.e., frequencies up to 30 MHz, and adopt assumptions that are violated when the frequency range is extended to G.fast frequencies. This paper introduces a simple and causal cable model that is able to accurately characterize copper loops composed by single or multiple segments, in both frequency and time domains. Results using G.fast topologies show that, apart from being accurate, the new model is attractive due to its low computational cost and closed-form expressions for fitting its parameters to measurement data.",

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AU - Acatauassu, Diogo

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AU - Lu, Chenguang

AU - Berg, Miguel

AU - Klautau, Aldebaro

AU - Börjesson, Per Ola

PY - 2014

Y1 - 2014

N2 - G.fast is a new standard from the International Telecommunication Union, which targets 1 Gb/s over short copper loops using frequencies up to 212 MHz. This new technology requires accurate parametric cable models for simulation, design, and performance evaluation tests. Some existing copper cable models were designed for the very high speed digital subscriber line spectra, i.e., frequencies up to 30 MHz, and adopt assumptions that are violated when the frequency range is extended to G.fast frequencies. This paper introduces a simple and causal cable model that is able to accurately characterize copper loops composed by single or multiple segments, in both frequency and time domains. Results using G.fast topologies show that, apart from being accurate, the new model is attractive due to its low computational cost and closed-form expressions for fitting its parameters to measurement data.

AB - G.fast is a new standard from the International Telecommunication Union, which targets 1 Gb/s over short copper loops using frequencies up to 212 MHz. This new technology requires accurate parametric cable models for simulation, design, and performance evaluation tests. Some existing copper cable models were designed for the very high speed digital subscriber line spectra, i.e., frequencies up to 30 MHz, and adopt assumptions that are violated when the frequency range is extended to G.fast frequencies. This paper introduces a simple and causal cable model that is able to accurately characterize copper loops composed by single or multiple segments, in both frequency and time domains. Results using G.fast topologies show that, apart from being accurate, the new model is attractive due to its low computational cost and closed-form expressions for fitting its parameters to measurement data.

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JO - IEEE Transactions on Communications

JF - IEEE Transactions on Communications

IS - 11

ER -

Simple and Causal Copper Cable Model Suitable for G.fast Frequencies

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