TR2005-074

Statistical Analysis of the UWB Channel in an Industrial Environment


    •  Karedal, J., Wyne, S., Almers, P., Tufvesson, F., Molisch, A.F., "Statistical Analysis of the UWB Channel in an Industrial Environment", IEEE Vehicular Technology Conference (VTC), September 2004, vol. 1, pp. 81-85.
      BibTeX TR2005-074 PDF
      • @inproceedings{Karedal2004sep,
      • author = {Karedal, J. and Wyne, S. and Almers, P. and Tufvesson, F. and Molisch, A.F.},
      • title = {Statistical Analysis of the UWB Channel in an Industrial Environment},
      • booktitle = {IEEE Vehicular Technology Conference (VTC)},
      • year = 2004,
      • volume = 1,
      • pages = {81--85},
      • month = sep,
      • issn = {1090-3038},
      • url = {https://www.merl.com/publications/TR2005-074}
      • }
  • Research Area:

    Communications

Abstract:

In this paper we present a statistical model for the ultra-wideband (UWB) channel in an industrial environment. Based on a set of measurements in a factory hall, we find that the abundance of metallic scatterers causes dense multipath scattering. This can be seen to produce mostly Rayleigh distributed small-scale fading signal, with only a few paths exhibiting Nakagami distributions. For the power delay profile, we suggest a generalization of the Saleh-Valenzuela model where clusters with difference excess delays have different ray power decay constants; the decay constants follow a linear dependence on the delay. This model provides an excellent fit to the measured data. We also note that for non-line-of-sight scenarios at larger distances, several hundred multipath components need to be collected to capture 50% of the available energy.

 

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    •  NEWS    VTC 2004: 5 publications by Jinyun Zhang and others
      Date: September 26, 2004
      Where: IEEE Vehicular Technology Conference (VTC)
      MERL Contact: Jinyun Zhang
      Brief
      • The papers "Spatial Diversity and Channel Statistics-Based RF-Baseband Co-Design for Antenna Selection" by Sudarshan, P., Mehta, N.B., Molisch, A.F. and Zhang, J., "Estimation of Performance Loss Due to Delay in Channel Feedback in MIMO Systems" by Du, J., Li, Y., Gu, D., Molisch, A.F. and Zhang, J., "Rate of MIMO Systems with CSI at Transmitter and Receiver from Pilot-Aided Estimation" by Mehta, N.B., Digham, F.F., Molisch, A.F. and Zhang, J., "Achieving Packet-Level Quality of Service Through Scheduling in Multirate WLANs" by Yuan, Y., Gu, D., Arbaugh, W. and Zhang, J. and "Statistical Analysis of the UWB Channel in an Industrial Environment" by Karedal, J., Wyne, S., Almers, P., Tufvesson, F. and Molisch, A.F. were presented at the IEEE Vehicular Technology Conference (VTC).
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