• DocumentCode
    1761898
  • Title

    Experimental Investigation of Electromagnetic Reverberation Characteristics as a Function of UWB Frequencies

  • Author

    Bamba, Aliou ; Martinez-Ingles, Maria-Teresa ; Gaillot, Davy P. ; Tanghe, Emmeric ; Hanssens, Brecht ; Molina-Garcia-Pardo, Jose-Maria ; Lienard, Martine ; Martens, Luc ; Joseph, Wout

  • Author_Institution
    Dept. of Inf. Technol., iMinds, Ghent Univ., Ghent, Belgium
  • Volume
    14
  • fYear
    2015
  • fDate
    2015
  • Firstpage
    859
  • Lastpage
    862
  • Abstract
    The electromagnetic reverberation time characteristics of indoor environments are experimentally investigated from 2 to 10 GHz. At a given frequency, the reverberation time is observed to be approximately constant for bandwidths up to 900 MHz (or larger). Moreover, the reverberation time decreases for increasing frequencies. Based on the theory of electromagnetic fields in cavities, a model to predict a room´s quality factor, reverberation time value, and average absorption coefficient is developed for the first time. The validity and robustness of the model is investigated with data obtained for various environments, central frequencies, and bandwidths. As a validation, the model is applied to another room from 2 to 10 GHz and a maximum (resp. average) relative error of 22.30% (resp. 8.80%) was obtained with a rms error of 1.90 ns. Furthermore, good agreement is obtained with results reported in the literature with settings falling into the model range; scenarios for which relative errors smaller than 10% were computed. The results demonstrate that this approach is not only an accurate alternative to the reverberation time measurements and computations in indoor environments from 2 to 10 GHz, but also a viable route to link propagation mechanisms in indoor scenarios with reverberation chambers.
  • Keywords
    Q-factor; electromagnetic fields; indoor communication; reverberation; ultra wideband communication; UWB frquencies; average absorption coefficient; electromagnetic fields; electromagnetic reverberation time characteristics; frequency 2 GHz to 10 GHz; indoor environments; indoor scenarios; link propagation mechanisms; quality factor; reverberation chambers; reverberation time measurements; reverberation time value; time 1.90 ns; Bandwidth; Laboratories; Q-factor; Reverberation; Time-frequency analysis; Dense multipath components; modeling; power density; reverberation time; ultra-wideband;
  • fLanguage
    English
  • Journal_Title
    Antennas and Wireless Propagation Letters, IEEE
  • Publisher
    ieee
  • ISSN
    1536-1225
  • Type

    jour

  • DOI
    10.1109/LAWP.2014.2382873
  • Filename
    6990514