Advanced search
2 files | 1.34 MB Add to list

Flexible real-time MIMO channel sounder for multidimensional polarimetric parameter estimation

Author
Organization
Abstract
This paper describes the architecture of a fully parallel multiple-input multiple-output (MIMO) channel sounder. It has been designed to give in real-time the full polarimetric channel matrix which is then exploited to display, for example, the bi-directional channel characteristics as the angle of arrival (AoA) and angle of departure (AoD) of the multipath components. This 16x16 sounder, working at a center frequency of 1.35 GHz, uses an OFDM transmission scheme with an 80 MHz bandwidth. Applications of this sounder are then illustrated by studying the outdoor to indoor propagation characteristics.
Keywords
RADIO CHANNEL, channel sounder, SYSTEM, OFDM, MIMO, channel characteristics

Downloads

  • (...).pdf
    • full text
    • |
    • UGent only
    • |
    • PDF
    • |
    • 867.57 KB
  • WICA 631a.pdf
    • full text
    • |
    • open access
    • |
    • PDF
    • |
    • 475.25 KB

Citation

Please use this url to cite or link to this publication:

MLA
Laly, Pierre et al. “Flexible Real-time MIMO Channel Sounder for Multidimensional Polarimetric Parameter Estimation.” 2015 IEEE CONFERENCE ON ANTENNA MEASUREMENTS & APPLICATIONS (CAMA). NEW YORK: IEEE, 2015. Print.
APA
Laly, P., Gaillot, D. P., Liénard, M., Degauque, P., Tanghe, E., Joseph, W., & Martens, L. (2015). Flexible real-time MIMO channel sounder for multidimensional polarimetric parameter estimation. 2015 IEEE CONFERENCE ON ANTENNA MEASUREMENTS & APPLICATIONS (CAMA). Presented at the IEEE Conference on Antenna Measurements (CAMA), NEW YORK: IEEE.
Chicago author-date
Laly, Pierre, Davy P. Gaillot, Martine Liénard, Pierre Degauque, Emmeric Tanghe, Wout Joseph, and Luc Martens. 2015. “Flexible Real-time MIMO Channel Sounder for Multidimensional Polarimetric Parameter Estimation.” In 2015 IEEE CONFERENCE ON ANTENNA MEASUREMENTS & APPLICATIONS (CAMA). NEW YORK: IEEE.
Chicago author-date (all authors)
Laly, Pierre, Davy P. Gaillot, Martine Liénard, Pierre Degauque, Emmeric Tanghe, Wout Joseph, and Luc Martens. 2015. “Flexible Real-time MIMO Channel Sounder for Multidimensional Polarimetric Parameter Estimation.” In 2015 IEEE CONFERENCE ON ANTENNA MEASUREMENTS & APPLICATIONS (CAMA). NEW YORK: IEEE.
Vancouver
1.
Laly P, Gaillot DP, Liénard M, Degauque P, Tanghe E, Joseph W, et al. Flexible real-time MIMO channel sounder for multidimensional polarimetric parameter estimation. 2015 IEEE CONFERENCE ON ANTENNA MEASUREMENTS & APPLICATIONS (CAMA). NEW YORK: IEEE; 2015.
IEEE
[1]
P. Laly et al., “Flexible real-time MIMO channel sounder for multidimensional polarimetric parameter estimation,” in 2015 IEEE CONFERENCE ON ANTENNA MEASUREMENTS & APPLICATIONS (CAMA), Chiang Mai, Thailand, 2015.
@inproceedings{8199846,
  abstract     = {This paper describes the architecture of a fully parallel multiple-input multiple-output (MIMO) channel sounder. It has been designed to give in real-time the full polarimetric channel matrix which is then exploited to display, for example, the bi-directional channel characteristics as the angle of arrival (AoA) and angle of departure (AoD) of the multipath components. This 16x16 sounder, working at a center frequency of 1.35 GHz, uses an OFDM transmission scheme with an 80 MHz bandwidth. Applications of this sounder are then illustrated by studying the outdoor to indoor propagation characteristics.},
  author       = {Laly, Pierre and Gaillot, Davy P. and Liénard, Martine and Degauque, Pierre and Tanghe, Emmeric and Joseph, Wout and Martens, Luc},
  booktitle    = {2015 IEEE CONFERENCE ON ANTENNA MEASUREMENTS & APPLICATIONS (CAMA)},
  isbn         = {978-1-4673-9149-8},
  keywords     = {RADIO CHANNEL,channel sounder,SYSTEM,OFDM,MIMO,channel characteristics},
  language     = {eng},
  location     = {Chiang Mai, Thailand},
  pages        = {3},
  publisher    = {IEEE},
  title        = {Flexible real-time MIMO channel sounder for multidimensional polarimetric parameter estimation},
  year         = {2015},
}

Web of Science
Times cited: