Publication detail

Characterizing mmWave radio propagation at 60GHz in a conference room scenario

PONOMARENKO-TIMOFEEV, A. SEMKIN, V. MAŠEK, P. GALININA, O.

Original Title

Characterizing mmWave radio propagation at 60GHz in a conference room scenario

English Title

Characterizing mmWave radio propagation at 60GHz in a conference room scenario

Type

conference paper

Language

en

Original Abstract

In this paper, we provide a shooting and bouncing ray (SBR) based simulation study of mmWave radio propagation at 60GHz in a typical conference room. The room geometry, material types, and other simulation settings are verified against the results of the measurement campaign at 83 GHz in [15]. Here, we extend the evaluation scenario by randomly scattering several human-sized blockers as well as study the effects of human body blockage models. We demonstrate that multiple knife-edge diffraction (KED) models are capable of providing meaningful results while keeping the simulation duration relatively short. Moreover, we address another important scenario, where transmitters and receivers are located at the same heights and are moving according to a predefined trajectory that corresponds, for example, to device-to-device interactions or inter-user interference.

English abstract

In this paper, we provide a shooting and bouncing ray (SBR) based simulation study of mmWave radio propagation at 60GHz in a typical conference room. The room geometry, material types, and other simulation settings are verified against the results of the measurement campaign at 83 GHz in [15]. Here, we extend the evaluation scenario by randomly scattering several human-sized blockers as well as study the effects of human body blockage models. We demonstrate that multiple knife-edge diffraction (KED) models are capable of providing meaningful results while keeping the simulation duration relatively short. Moreover, we address another important scenario, where transmitters and receivers are located at the same heights and are moving according to a predefined trajectory that corresponds, for example, to device-to-device interactions or inter-user interference.

Keywords

mmWave Communication; 60GHz; Radio Propagation; Indoor Propagation; Conference room

Released

29.08.2018

Location

St. Petersburg

ISBN

978-3-030-01168-0

Book

In Internet of Things, Smart Spaces, and Next Generation Networks and Systems. The 18th International Conference on Next Generation Wired/Wireless Advanced Networks and Systems NEW2AN 2018.

Pages from

381

Pages to

393

Pages count

13

URL

Documents

BibTex


@inproceedings{BUT149604,
  author="Aleksei {Ponomarenko-Timofeev} and Vasilii {Semkin} and Pavel {Mašek} and Olga {Galinina}",
  title="Characterizing mmWave radio propagation at 60GHz in a conference room scenario",
  annote="In this paper, we provide a shooting and bouncing ray (SBR) based simulation study of mmWave radio propagation at 60GHz in a typical conference room. The room geometry, material types, and other simulation settings are verified against the results of the measurement campaign at 83 GHz in [15]. Here, we extend the evaluation scenario by randomly scattering several human-sized blockers as well as study the effects of human body blockage models. We demonstrate that multiple knife-edge diffraction (KED) models are capable of providing meaningful results while keeping the simulation duration relatively short. Moreover, we address another important scenario, where transmitters and receivers are located at the same heights and are moving according to a predefined trajectory that corresponds, for example, to device-to-device interactions or inter-user interference.",
  booktitle="In Internet of Things, Smart Spaces, and Next Generation Networks and Systems. The 18th International Conference on Next Generation Wired/Wireless Advanced Networks and Systems NEW2AN 2018.",
  chapter="149604",
  doi="10.1007/978-3-030-01168-0_35",
  howpublished="online",
  year="2018",
  month="august",
  pages="381--393",
  type="conference paper"
}