• DocumentCode
    1177406
  • Title

    Indoor channel measurements and characterization at 60 GHz for wireless local area network applications

  • Author

    Moraitis, Nektarios ; Constantinou, Philip

  • Author_Institution
    Mobile Radiocommun. Lab., Nat. Tech. Univ. of Athens, Greece
  • Volume
    52
  • Issue
    12
  • fYear
    2004
  • Firstpage
    3180
  • Lastpage
    3189
  • Abstract
    This work presents propagation measurement results at 60 GHz in order to determine the characteristics of indoor radio channels between fixed terminals. Path loss measurements are reported for line-of-sight (LoS) and non-line-of-sight (NLoS) cases, fading statistics in a physically stationary environment are extracted and a detailed investigation of the people movement effect on the temporal fading envelope is performed. Models that presented to predict path loss provide excellent fitting with errors of 1.13 and 3.84 dB for LoS and NLoS topographies, respectively. The dynamic range of fading in a quiescent environment is 8.8 dB and increased to 35 dB when a person moves between the fixed terminals with the channel becoming extremely nonstationary. Temporal variations induced by the moving people depend on the speed, the number of individuals the body sizes and the environment. Slow fading is observed as well as a quasi-wide-sense stationary (QWSS) behavior of the fading, but up to 50 ms of time.
  • Keywords
    channel estimation; fading channels; indoor radio; millimetre wave measurement; millimetre wave propagation; statistics; wireless LAN; 60 GHz; LoS; NLoS; QWSS; WLAN; channel measurement; fading statistics; indoor radio channel; line-of-sight; millimeter wave propagation; nonline-of-sight; path loss measurement; quasiwide-sense stationary behavior; wireless local area network; Area measurement; Dynamic range; Fading; Indoor radio communication; Loss measurement; Performance evaluation; Predictive models; Statistics; Surfaces; Wireless LAN; 65; Indoor channel measurements; WLANs; millimeter wave propagation; modeling;
  • fLanguage
    English
  • Journal_Title
    Antennas and Propagation, IEEE Transactions on
  • Publisher
    ieee
  • ISSN
    0018-926X
  • Type

    jour

  • DOI
    10.1109/TAP.2004.836422
  • Filename
    1364132