Modeling Human Blockage for 5G Millimeter-Wave Frequencies

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Abstract

Millimeter-wave (mm-wave) spectrum unravels the humongous and accelerating demand for wireless data rates and, therefore, it will be a fundamental ingredient of the fifthgeneration (5G) wireless technology. In case of mm-wave access links, humans are the most noticeable blockers of electromagnetic waves from access points to mobile stations and hence cause temporal variation in the radio channel. This paper presents human blockage measurements in the anechoic chamber at 15, 28 and 60GHz frequencies employing 15 human subjects of different sizes and weights. An effective three-dimensional human blockage model as a double-truncated and absorbing multiple knife-edge (DTMKE) scheme is also proposed. By calculating diffraction from the DTMKE, the frequency, body orientation and antenna height dependency of the blockage are most accurately reproduced compared to the existing models, such as absorbing double knife-edge model and third generation partnership project (3GPP) human blockage model. The results demonstrate that the losses are proportional to the cross-section of the human body with respect to the radio link. Furthermore, the blockage loss decreases as the height of the transmitting antenna increases.
Original languageEnglish
Article number8883197
Pages (from-to)2256-2266
JournalIEEE Transactions on Antennas and Propagation
Volume68
Issue number3
Early online date2019
DOIs
Publication statusPublished - Mar 2020
MoE publication typeA1 Journal article-refereed

Keywords

  • millimeter-wave (mm-wave)
  • fifth-generation (5G)
  • three-dimensional (3D)
  • human blockage

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  • Projects

    WiFiUS: Device-to-Device Communications at Millimeter-Wave Frequencies

    Virk, U., Karttunen, A., Haneda, K. & Nguyen, S.

    15/11/201431/12/2016

    Project: Academy of Finland: Other research funding

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