A novel low-cost channel sounder for double-directionally resolved measurements in the mmWave band

Hussein Hammoud; Yuning Zhang; Zihang Cheng; Seun Sangodoyin; Markus Hofer; Faruk Pasic; Thomas Pohl; Radek Zavorka; Ales Prokes; Thomas Zemen; Christoph F. Mecklenbräuker; Andreas F. Molisch

doi:10.1109/ICC51166.2024.10623048

A novel low-cost channel sounder for double-directionally resolved measurements in the mmWave band

Hussein Hammoud (Author and Speaker)
, Yuning Zhang
, Zihang Cheng
, Seun Sangodoyin
, Markus Hofer
, Faruk Pasic
, Thomas Pohl
, Radek Zavorka
, Ales Prokes
, Thomas Zemen
, Christoph F. Mecklenbräuker
, Andreas F. Molisch

University of Southern California
TU Wien, Institute of Telecommunications
Brno University of Technology

Research output: Chapter in Book or Conference Proceedings › Conference Proceedings with Oral Presentation › peer-review

Abstract

With the move towards 6G and associated tech-
nology deployment in higher frequency bands, measurements
of directionally-resolved channels and sounders capable of per-
forming such measurements are a necessity. In this paper, we
present a new concept of channel sounding based on a Redirecting
Rotating Mirror Arrangement (ReRoMA), capable of performing
double-directional channel measurements at millimeter wave
frequencies by mechanical beam steering orders of magnitude
faster than existing rotating-horn arrangements. We present this
new concept, describe a prototype operating at 60 GHz, and use it
to perform, as proof-of-principle, a dynamic cart-to-cart channel
measurements at a T-intersection scenario. We show that this
sounding principle works and allows the directional evaluation
of the channel. We visualize the different resolvable propagation
paths in terms of dynamic angular and delay power spectrum,
and relate them to the environmental geometry.

Original language	English
Title of host publication	ICC 2024 - IEEE International Conference on Communications
Pages	3195 - 3201
Number of pages	7
ISBN (Electronic)	978-1-7281-9054-9
DOIs	https://doi.org/10.1109/ICC51166.2024.10623048
Publication status	Published - 1 Jun 2024
Event	ICC 2024 - IEEE International Conference on Communications - Denver, Colorado, United States Duration: 9 Jun 2024 → 13 Jun 2024

Publication series

Name	IEEE International Conference on Communications

Conference

Conference	ICC 2024 - IEEE International Conference on Communications
Country/Territory	United States
City	Colorado
Period	9/06/24 → 13/06/24

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

SDG 9 Industry, Innovation, and Infrastructure

Research Field

Former Research Field - Enabling Digital Technologies

Keywords

channel measurements
double-directional
dynamic channels
6G

Access to Document

10.1109/ICC51166.2024.10623048

Cite this

Hammoud, H., Zhang, Y., Cheng, Z., Sangodoyin, S., Hofer, M., Pasic, F., Pohl, T., Zavorka, R., Prokes, A., Zemen, T., Mecklenbräuker, C. F., & Molisch, A. F. (2024). A novel low-cost channel sounder for double-directionally resolved measurements in the mmWave band. In ICC 2024 - IEEE International Conference on Communications (pp. 3195 - 3201). (IEEE International Conference on Communications). https://doi.org/10.1109/ICC51166.2024.10623048

@inproceedings{49055b3d4260419ea5b81ce5d8c82816,

title = "A novel low-cost channel sounder for double-directionally resolved measurements in the mmWave band",

abstract = "With the move towards 6G and associated tech- nology deployment in higher frequency bands, measurements of directionally-resolved channels and sounders capable of per- forming such measurements are a necessity. In this paper, we present a new concept of channel sounding based on a Redirecting Rotating Mirror Arrangement (ReRoMA), capable of performing double-directional channel measurements at millimeter wave frequencies by mechanical beam steering orders of magnitude faster than existing rotating-horn arrangements. We present this new concept, describe a prototype operating at 60 GHz, and use it to perform, as proof-of-principle, a dynamic cart-to-cart channel measurements at a T-intersection scenario. We show that this sounding principle works and allows the directional evaluation of the channel. We visualize the different resolvable propagation paths in terms of dynamic angular and delay power spectrum, and relate them to the environmental geometry.",

keywords = "channel measurements, double-directional, dynamic channels, 6G",

author = "Hussein Hammoud and Yuning Zhang and Zihang Cheng and Seun Sangodoyin and Markus Hofer and Faruk Pasic and Thomas Pohl and Radek Zavorka and Ales Prokes and Thomas Zemen and Mecklenbr{\"a}uker, \{Christoph F.\} and Molisch, \{Andreas F.\}",

year = "2024",

month = jun,

day = "1",

doi = "10.1109/ICC51166.2024.10623048",

language = "English",

isbn = "978-1-7281-9055-6",

series = "IEEE International Conference on Communications",

pages = "3195 -- 3201",

booktitle = "ICC 2024 - IEEE International Conference on Communications",

note = "ICC 2024 - IEEE International Conference on Communications ; Conference date: 09-06-2024 Through 13-06-2024",

}

Hammoud, H, Zhang, Y, Cheng, Z, Sangodoyin, S, Hofer, M, Pasic, F, Pohl, T, Zavorka, R, Prokes, A, Zemen, T, Mecklenbräuker, CF & Molisch, AF 2024, A novel low-cost channel sounder for double-directionally resolved measurements in the mmWave band. in ICC 2024 - IEEE International Conference on Communications. IEEE International Conference on Communications, pp. 3195 - 3201, ICC 2024 - IEEE International Conference on Communications, Colorado, Colorado, United States, 9/06/24. https://doi.org/10.1109/ICC51166.2024.10623048

A novel low-cost channel sounder for double-directionally resolved measurements in the mmWave band. / Hammoud, Hussein (Author and Speaker); Zhang, Yuning; Cheng, Zihang et al.
ICC 2024 - IEEE International Conference on Communications. 2024. p. 3195 - 3201 (IEEE International Conference on Communications).

Research output: Chapter in Book or Conference Proceedings › Conference Proceedings with Oral Presentation › peer-review

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AU - Zhang, Yuning

AU - Cheng, Zihang

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AU - Hofer, Markus

AU - Pasic, Faruk

AU - Pohl, Thomas

AU - Zavorka, Radek

AU - Prokes, Ales

AU - Zemen, Thomas

AU - Mecklenbräuker, Christoph F.

AU - Molisch, Andreas F.

A2 - Hammoud, Hussein

PY - 2024/6/1

Y1 - 2024/6/1

N2 - With the move towards 6G and associated tech- nology deployment in higher frequency bands, measurements of directionally-resolved channels and sounders capable of per- forming such measurements are a necessity. In this paper, we present a new concept of channel sounding based on a Redirecting Rotating Mirror Arrangement (ReRoMA), capable of performing double-directional channel measurements at millimeter wave frequencies by mechanical beam steering orders of magnitude faster than existing rotating-horn arrangements. We present this new concept, describe a prototype operating at 60 GHz, and use it to perform, as proof-of-principle, a dynamic cart-to-cart channel measurements at a T-intersection scenario. We show that this sounding principle works and allows the directional evaluation of the channel. We visualize the different resolvable propagation paths in terms of dynamic angular and delay power spectrum, and relate them to the environmental geometry.

AB - With the move towards 6G and associated tech- nology deployment in higher frequency bands, measurements of directionally-resolved channels and sounders capable of per- forming such measurements are a necessity. In this paper, we present a new concept of channel sounding based on a Redirecting Rotating Mirror Arrangement (ReRoMA), capable of performing double-directional channel measurements at millimeter wave frequencies by mechanical beam steering orders of magnitude faster than existing rotating-horn arrangements. We present this new concept, describe a prototype operating at 60 GHz, and use it to perform, as proof-of-principle, a dynamic cart-to-cart channel measurements at a T-intersection scenario. We show that this sounding principle works and allows the directional evaluation of the channel. We visualize the different resolvable propagation paths in terms of dynamic angular and delay power spectrum, and relate them to the environmental geometry.

KW - channel measurements

KW - double-directional

KW - dynamic channels

KW - 6G

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M3 - Conference Proceedings with Oral Presentation

SN - 978-1-7281-9055-6

T3 - IEEE International Conference on Communications

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EP - 3201

BT - ICC 2024 - IEEE International Conference on Communications

T2 - ICC 2024 - IEEE International Conference on Communications

Y2 - 9 June 2024 through 13 June 2024

ER -

A novel low-cost channel sounder for double-directionally resolved measurements in the mmWave band

Abstract

Publication series

Conference

UN SDGs

Research Field

Keywords

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