• DocumentCode
    1157942
  • Title

    Smart-antenna operation for indoor wireless local-area networks using OFDM

  • Author

    Alastalo, Ari T ; Kahola, Mika

  • Author_Institution
    Nokia Group, Radio Commun. Lab., Helsinki, Finland
  • Volume
    2
  • Issue
    2
  • fYear
    2003
  • fDate
    3/1/2003 12:00:00 AM
  • Firstpage
    392
  • Lastpage
    399
  • Abstract
    This paper reports link-level Monte Carlo simulations for a system that is compatible with the physical layer of the 5-GHz IEEE 802.11a wireless-local-area network and utilizes an adaptive antenna array at the access point for single-user smart-antenna operation, as well as for space-division multiple access (SDMA). For the spatial indoor radio propagation channel, complex impulse-response recordings are used. These are obtained in wideband channel-sounder measurements in three different buildings at 5.3 GHz. Thus, no unrealistic assumptions about channel conditions are involved. The paper studies how the packet-error-rate performance for the downlink (DL) is affected by time evolution of the radio channel that takes place after the uplink operation in which channel estimation is performed, and before DL operation in which the estimated channel information is utilized. Based on simulations two-user SDMA is possible with four-antenna elements under indoor propagation conditions and with six antennas three users can simultaneously be served. Delay spreads, coherence bandwidths, and correlation properties (in space, frequency, and polarization) of the radio channels obtained in the measurements are also discussed. The results suggest that indoor time-division-duplex systems with access-point-controlled scheduling are desirable communication systems which can benefit from SDMA.
  • Keywords
    Monte Carlo methods; OFDM modulation; adaptive antenna arrays; channel estimation; correlation methods; delays; digital simulation; indoor radio; microwave antenna arrays; microwave links; microwave propagation; packet radio networks; space division multiple access; transient response; wireless LAN; 5 GHz; 5.3 GHz; IEEE 802.11a; OFDM; SDMA; SHF; WLAN; access-point-controlled scheduling; adaptive antenna array; buildings; channel estimation; coherence bandwidth; correlation properties; delay spreads; downlink; four-antenna elements; impulse-response recordings; indoor time-division-duplex systems; indoor wireless local-area networks; link-level Monte Carlo simulations; packet error rate performance; physical layer; polarization; radio channel time evolution; radio channels; simulations; smart antenna; space-division multiple access; spatial indoor radio propagation channel; wideband channel-sounder measurements; wireless LAN; Adaptive arrays; Antenna arrays; Antenna measurements; Antennas and propagation; Indoor radio communication; Local area networks; Multiaccess communication; OFDM; Physical layer; Wideband;
  • fLanguage
    English
  • Journal_Title
    Wireless Communications, IEEE Transactions on
  • Publisher
    ieee
  • ISSN
    1536-1276
  • Type

    jour

  • DOI
    10.1109/TWC.2003.809451
  • Filename
    1184123