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POLÁK, L. MILOŠ, J. ZEDKA, R. BLUMENSTEIN, J. MECKLENBRÄUKER, C.
Original Title
BER and throughput performances of IEEE 802.11ay SC-PHY over measured 60 GHz indoor channels
Type
journal article in Web of Science
Language
English
Original Abstract
he IEEE 802.11ay is an emerging system that will become a full member of the big family of the IEEE 802.11 standards in the near future. Compared to its predecessor IEEE 802.11ad, it promises to offer higher system flexibility and more reliable wireless communication links for short distances in millimeter-wave bands. This paper provides a simulation-based performance study of IEEE 802.11ay single carrier-physical (SC-PHY) layer for different transmission modes and scenarios. For this purpose, a MATLAB-based IEEE 802.11ay SC-PHY simulator is introduced. Next, 60 GHz indoor channel models based on extensive real-world indoor measurements, conducted by ourselves, are created and used to analyze the performance of IEEE 802.1ay SC-PHY in terms of Bit Error Ratio and data throughput. Both the simulator and channel models are available online. A phase noise behavioral model to emulate channel impairments is also considered and used in this work. The obtained results show how the IEEE 802.11ay SC-PHY system employing different transmission modes is influenced under various channel conditions.
Keywords
60 GHz indoor channel model, IEEE 802.11ay, phase noise, PHY-level simulation, RF measurement, WLAN
Authors
POLÁK, L.; MILOŠ, J.; ZEDKA, R.; BLUMENSTEIN, J.; MECKLENBRÄUKER, C.
Released
26. 6. 2022
Publisher
Springer
Location
Nizozemsko
ISBN
1572-9451
Periodical
Telecommunication Systems
Year of study
80
Number
4
State
Kingdom of the Netherlands
Pages from
573
Pages to
587
Pages count
15
URL
https://link.springer.com/article/10.1007/s11235-022-00928-9
BibTex
@article{BUT178429, author="Ladislav {Polák} and Jiří {Miloš} and Radim {Zedka} and Jiří {Blumenstein} and Christoph {Mecklenbräuker}", title="BER and throughput performances of IEEE 802.11ay SC-PHY over measured 60 GHz indoor channels", journal="Telecommunication Systems", year="2022", volume="80", number="4", pages="573--587", doi="10.1007/s11235-022-00928-9", issn="1572-9451", url="https://link.springer.com/article/10.1007/s11235-022-00928-9" }