• DocumentCode
    867829
  • Title

    Methods for modeling of specified and measured multipath power-delay profiles

  • Author

    Pätzold, Matthias ; Szczepanski, Arkadius ; Youssef, Neji

  • Author_Institution
    Fac. of Eng. & Sci., Agder Univ. Coll., Grimstad, Norway
  • Volume
    51
  • Issue
    5
  • fYear
    2002
  • fDate
    9/1/2002 12:00:00 AM
  • Firstpage
    978
  • Lastpage
    988
  • Abstract
    Five fundamental methods are proposed to model the multipath power-delay profile of frequency-selective indoor and outdoor wireless channels. Three of them are new, and the other two are well known, but their performance, however, has not been studied in detail up until now. All procedures are universally valid so that they can be applied to any specified or measured multipath power-delay profile. The performance of the proposed methods is investigated with respect to important characteristic quantities such as the frequency correlation function (FCF), average delay, and delay spread. The method found to perform best is the so-called LP-norm method (LPNM). This procedure is applied to measurement data of multipath power-delay profiles collected in different propagation environments. It is shown that the realization complexity of tapped-delay line-based simulation models for fading channels can be reduced considerably by using the LPNM. This is a great advantage for the development and specification of channel models for future wireless systems.
  • Keywords
    correlation methods; delay lines; delays; indoor radio; land mobile radio; multipath channels; radiowave propagation; LP-norm method; LPNM; average delay; delay spread; deterministic channel modeling; frequency correlation function; frequency-selective indoor wireless channel; frequency-selective outdoor wireless channel; measured multipath power-delay profile; modeling methods; propagation environments; realization complexity; specified multipath power-delay profile; tapped-delay line-based simulation models; wide-sense stationary uncorrelated scattering; wireless systems; Delay; Fading; Frequency; GSM; Land mobile radio; Mobile communication; Multiaccess communication; Multipath channels; Power system modeling; Time division multiple access;
  • fLanguage
    English
  • Journal_Title
    Vehicular Technology, IEEE Transactions on
  • Publisher
    ieee
  • ISSN
    0018-9545
  • Type

    jour

  • DOI
    10.1109/TVT.2002.801747
  • Filename
    1105936