An overview of the Meteracom Project

David A Humphreys; Thomas Kuerner; Mladen  Berekovic; Admela Jukan; Thomas  Schneider; Ingmar  Kallfass; J. Christoph Scheytt; Thomas Kleine-Ostmann; Martin  Koch; Reiner Thomä

An overview of the Meteracom Project

David A Humphreys^*, Thomas Kuerner, Mladen Berekovic, Admela Jukan, Thomas Schneider, Ingmar Kallfass, J. Christoph Scheytt, Thomas Kleine-Ostmann, Martin Koch, Reiner Thomä

^*Corresponding author for this work

Department of Electrical & Electronic Engineering

Research output: Contribution to conference › Conference Paper › peer-review

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Abstract

We overview the 3-year Meteracom project which
will provide traceability to the SI for THz communication
measurement parameters. The key objectives are to develop new
metrological methods to characterize the measurement systems,
system components and propagation channels. The final
objective is to develop metrology for functionality and signal
integrity of THz communication systems; particularly device
discovery and beam tracking, determination of physical layer
parameters for digital transmission and real-time performance
evaluation.

Original language	English
Number of pages	8
Publication status	Unpublished - 10 Oct 2019
Event	WWRF 43: Intelligent Applications for a 5G Connected World - NPL, Teddington (London), United Kingdom Duration: 9 Oct 2019 → 10 Oct 2019 Conference number: 43 https://www.wwrf.ch/events/wwrf-43.html

Conference

Conference	WWRF 43
Country/Territory	United Kingdom
City	Teddington (London)
Period	9/10/19 → 10/10/19
Internet address	https://www.wwrf.ch/events/wwrf-43.html

Bibliographical note

Extended abstract / presentation available at https://www.wwrf.ch/events/wwrf-43.html

Keywords

THz Communications
Metrology;
Beam discovery
Channel Sounding
Sampling Physical layer
Real-Time performance monitoring

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https://www.wwrf.ch/events/wwrf-43.html

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title = "An overview of the Meteracom Project",

abstract = "We overview the 3-year Meteracom project whichwill provide traceability to the SI for THz communicationmeasurement parameters. The key objectives are to develop newmetrological methods to characterize the measurement systems,system components and propagation channels. The finalobjective is to develop metrology for functionality and signalintegrity of THz communication systems; particularly devicediscovery and beam tracking, determination of physical layerparameters for digital transmission and real-time performanceevaluation.",

keywords = "THz Communications, Metrology;, Beam discovery, Channel Sounding, Sampling Physical layer, Real-Time performance monitoring",

author = "Humphreys, {David A} and Thomas Kuerner and Mladen Berekovic and Admela Jukan and Thomas Schneider and Ingmar Kallfass and Scheytt, {J. Christoph} and Thomas Kleine-Ostmann and Martin Koch and Reiner Thom{\"a}",

note = "Extended abstract / presentation available at https://www.wwrf.ch/events/wwrf-43.html; WWRF 43 : Intelligent Applications for a 5G Connected World ; Conference date: 09-10-2019 Through 10-10-2019",

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month = oct,

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language = "English",

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TY - CONF

T1 - An overview of the Meteracom Project

AU - Humphreys, David A

AU - Kuerner, Thomas

AU - Berekovic, Mladen

AU - Jukan, Admela

AU - Schneider, Thomas

AU - Kallfass, Ingmar

AU - Scheytt, J. Christoph

AU - Kleine-Ostmann, Thomas

AU - Koch, Martin

AU - Thomä, Reiner

N1 - Conference code: 43

PY - 2019/10/10

Y1 - 2019/10/10

N2 - We overview the 3-year Meteracom project whichwill provide traceability to the SI for THz communicationmeasurement parameters. The key objectives are to develop newmetrological methods to characterize the measurement systems,system components and propagation channels. The finalobjective is to develop metrology for functionality and signalintegrity of THz communication systems; particularly devicediscovery and beam tracking, determination of physical layerparameters for digital transmission and real-time performanceevaluation.

AB - We overview the 3-year Meteracom project whichwill provide traceability to the SI for THz communicationmeasurement parameters. The key objectives are to develop newmetrological methods to characterize the measurement systems,system components and propagation channels. The finalobjective is to develop metrology for functionality and signalintegrity of THz communication systems; particularly devicediscovery and beam tracking, determination of physical layerparameters for digital transmission and real-time performanceevaluation.

KW - THz Communications

KW - Metrology;

KW - Beam discovery

KW - Channel Sounding

KW - Sampling Physical layer

KW - Real-Time performance monitoring

M3 - Conference Paper

T2 - WWRF 43

Y2 - 9 October 2019 through 10 October 2019

ER -

An overview of the Meteracom Project

Abstract

Conference

Bibliographical note

Keywords

Access to Document

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