Propagation Modeling for Physically Large Arrays: Measurements and Multipath Component Visibility

Thomas Wilding; Benjamin J. B. Deutschmann; Christian Nelson; Xuhong Li; Fredrik Tufvesson; Klaus Witrisal

doi:10.1109/EuCNC/6GSummit58263.2023.10188223

Propagation Modeling for Physically Large Arrays: Measurements and Multipath Component Visibility

Thomas Wilding, Benjamin J. B. Deutschmann, Christian Nelson, Xuhong Li, Fredrik Tufvesson, Klaus Witrisal

Publikation: Beitrag in Buch/Bericht/Konferenzband › Beitrag in einem Konferenzband › Begutachtung

Abstract

This paper deals with propagation and channel modeling for physically large arrays. The focus lies on acquiring a spatially consistent model, which is essential, especially for positioning and sensing applications. Ultra-wideband, synthetic array measurement data have been acquired with large positioning devices to support this research. We present a modified multipath channel model that accounts for a varying visibility of multipath components along a large array. Based on a geometric model of the measurement environment, we analyze the visibility of specular components. We show that, depending on the size of the reflecting surface, geometric visibility and amplitude estimates obtained with a super-resolution channel estimation algorithm show a strong correspondence. Furthermore, we highlight the capabilities of the developed synthetic array measurement system.

Originalsprache	englisch
Titel	2023 Joint European Conference on Networks and Communications and 6G Summit, EuCNC/6G Summit 2023
Herausgeber (Verlag)	Curran Associates, Inc
Seiten	204-209
Seitenumfang	6
ISBN (elektronisch)	9798350311020
DOIs	https://doi.org/10.1109/EuCNC/6GSummit58263.2023.10188223
Publikationsstatus	Veröffentlicht - 26 Juli 2023
Veranstaltung	2023 Joint European Conference on Networks and Communications & 6G Summit: EuCNC/6G 2023 - Gothenburg, Schweden Dauer: 6 Juni 2023 → 9 Juni 2023 https://smart-networks.europa.eu/event/2023-eucnc-6g-summit/

Konferenz

Konferenz	2023 Joint European Conference on Networks and Communications & 6G Summit
Kurztitel	2023 EuCNC/6G Summit
Land/Gebiet	Schweden
Ort	Gothenburg
Zeitraum	6/06/23 → 9/06/23
Internetadresse	https://smart-networks.europa.eu/event/2023-eucnc-6g-summit/

ASJC Scopus subject areas

Sicherheit, Risiko, Zuverlässigkeit und Qualität
Signalverarbeitung
Instrumentierung
Hardware und Architektur
Computernetzwerke und -kommunikation
Angewandte Informatik

Zugriff auf Dokument

10.1109/EuCNC/6GSummit58263.2023.10188223

https://arxiv.org/pdf/2305.05958.pdfLizenz: CC BY 4.0

Andere Dateien und Links

Verknüpfung zur Publikation in Scopus

EU - REINDEER - REsilient INteractive-Anwendungen durch Hyper-Diversity in energieeffizienter RadioWeaves-Technologie
Witrisal, K., Deutschmann, B., Wilding, T. & Leitinger, E.
1/01/21 → 30/06/24
Projekt: Forschungsprojekt

Dieses zitieren

Wilding, T., Deutschmann, B. J. B., Nelson, C., Li, X., Tufvesson, F., & Witrisal, K. (2023). Propagation Modeling for Physically Large Arrays: Measurements and Multipath Component Visibility. in 2023 Joint European Conference on Networks and Communications and 6G Summit, EuCNC/6G Summit 2023 (S. 204-209). Curran Associates, Inc. https://doi.org/10.1109/EuCNC/6GSummit58263.2023.10188223

Propagation Modeling for Physically Large Arrays: Measurements and Multipath Component Visibility. / Wilding, Thomas ; Deutschmann, Benjamin J. B.; Nelson, Christian et al.
2023 Joint European Conference on Networks and Communications and 6G Summit, EuCNC/6G Summit 2023. Curran Associates, Inc, 2023. S. 204-209.

Publikation: Beitrag in Buch/Bericht/Konferenzband › Beitrag in einem Konferenzband › Begutachtung

Wilding, T , Deutschmann, BJB, Nelson, C, Li, X, Tufvesson, F & Witrisal, K 2023, Propagation Modeling for Physically Large Arrays: Measurements and Multipath Component Visibility. in 2023 Joint European Conference on Networks and Communications and 6G Summit, EuCNC/6G Summit 2023. Curran Associates, Inc, S. 204-209, 2023 Joint European Conference on Networks and Communications & 6G Summit, Gothenburg, Schweden, 6/06/23. https://doi.org/10.1109/EuCNC/6GSummit58263.2023.10188223

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title = "Propagation Modeling for Physically Large Arrays: Measurements and Multipath Component Visibility",

abstract = "This paper deals with propagation and channel modeling for physically large arrays. The focus lies on acquiring a spatially consistent model, which is essential, especially for positioning and sensing applications. Ultra-wideband, synthetic array measurement data have been acquired with large positioning devices to support this research. We present a modified multipath channel model that accounts for a varying visibility of multipath components along a large array. Based on a geometric model of the measurement environment, we analyze the visibility of specular components. We show that, depending on the size of the reflecting surface, geometric visibility and amplitude estimates obtained with a super-resolution channel estimation algorithm show a strong correspondence. Furthermore, we highlight the capabilities of the developed synthetic array measurement system.",

keywords = "propagation modeling, radio channel measurements, positioning, Propagation modeling, radio measurements, radio positioning",

author = "Thomas Wilding and Deutschmann, {Benjamin J. B.} and Christian Nelson and Xuhong Li and Fredrik Tufvesson and Klaus Witrisal",

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AU - Wilding, Thomas

AU - Deutschmann, Benjamin J. B.

AU - Nelson, Christian

AU - Li, Xuhong

AU - Tufvesson, Fredrik

AU - Witrisal, Klaus

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AB - This paper deals with propagation and channel modeling for physically large arrays. The focus lies on acquiring a spatially consistent model, which is essential, especially for positioning and sensing applications. Ultra-wideband, synthetic array measurement data have been acquired with large positioning devices to support this research. We present a modified multipath channel model that accounts for a varying visibility of multipath components along a large array. Based on a geometric model of the measurement environment, we analyze the visibility of specular components. We show that, depending on the size of the reflecting surface, geometric visibility and amplitude estimates obtained with a super-resolution channel estimation algorithm show a strong correspondence. Furthermore, we highlight the capabilities of the developed synthetic array measurement system.

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KW - radio channel measurements

KW - positioning

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Propagation Modeling for Physically Large Arrays: Measurements and Multipath Component Visibility

Abstract

Konferenz

ASJC Scopus subject areas

Zugriff auf Dokument

Andere Dateien und Links

Fingerprint

Projekte

EU - REINDEER - REsilient INteractive-Anwendungen durch Hyper-Diversity in energieeffizienter RadioWeaves-Technologie

Dieses zitieren