%Aigaion2 BibTeX export from IfE Document Management System
%Wednesday 16 May 2012 10:59:02 PM

@ARTICLE{1618600,
    author = {Barras, David and Ellinger, Frank and J{\"{a}}ckel, Heinz and Hirt, Walter},
  keywords = {additive white Gaussian noise channel, amplitude modulation, AWGN channels, binary-shift keying, bit error rate, carrierless amplitude modulation, demodulation, demodulation method, low power transceivers, low-power electronics, modulation scheme, phase shift keying, transceiver architecture, transceivers, ultra wideband communication UWB channel models, UWB radio technology},
     month = jun,
     title = {A robust front-end architecture for low-power UWB radio transceivers},
   journal = {Microwave Theory and Techniques, IEEE Transactions on},
    volume = {54},
    number = {4},
      year = {2006},
     pages = {1713-1723},
      issn = {0018-9480},
       doi = {10.1109/tmtt.2006.872075},
  abstract = {In this paper, we propose a transceiver architecture and a novel modulation scheme for ultra-wideband (UWB) radio technology. The modulation uses a combination of binary-shift keying and a carrierless amplitude modulation. A demodulation method is proposed and theoretically investigated. These techniques enable the implementation of low-power although robust and reliable UWB radio transceivers intended for short ranges (below 10 m) and medium bit rates (1-10 Mb/s). This paper addresses the theoretical bit error rate performance of a demodulator/detector for data transmission over an additive white Gaussian noise channel. Additional simulation results are given to assess the performance of the proposed solution in a dense multipath environment with the help of available UWB channel models.}
}