• DocumentCode
    401908
  • Title

    Bit error rate optimized time-domain equalizers for DMT systems

  • Author

    Fung, Carrson C. ; Kok, Chi-Wah

  • Author_Institution
    Dept. of Electr. & Electron. Eng., Hong Kong Univ. of Sci. & Technol., Kowloon, China
  • Volume
    2
  • fYear
    2003
  • fDate
    7-10 Sept. 2003
  • Firstpage
    1049
  • Abstract
    Time-domain equalizers (TEQs) have been applied extensively to shorten the channel impulse response, thus enhancing the transmission efficiency of multitone and multicarrier systems with cyclic prefix. Recent developments on TEQs have mainly been focused on minimizing the additive noise power, minimizing the ISI power or maximizing the total throughput. This paper takes a different approach by minimizing the detection error or bit error rate (BER) using the Chernoff bound, under a fixed ISI power of the equalized channel, simulation results showed that this approach achieves better performance in terms of the bit error rate when compared to the aforementioned approaches and is robust to channel noise and channel length. Both numerical and analytical solutions have been derived.
  • Keywords
    OFDM modulation; equalisers; error statistics; intersymbol interference; minimisation; telecommunication channels; transient response; Chernoff bound; DMT systems; ISI power; OFDM system; bit error rate; channel impulse response; channel noise; cyclic prefix; detection error minimization; discrete multitone system; intersymbol interference; multicarrier systems; orthogonal frequency division multiplexing; time-domain equalizer optimization; Bit error rate; Convolution; Demodulation; Equalizers; Intersymbol interference; OFDM modulation; Oscillators; Peak to average power ratio; Phase noise; Time domain analysis;
  • fLanguage
    English
  • Publisher
    ieee
  • Conference_Titel
    Personal, Indoor and Mobile Radio Communications, 2003. PIMRC 2003. 14th IEEE Proceedings on
  • Print_ISBN
    0-7803-7822-9
  • Type

    conf

  • DOI
    10.1109/PIMRC.2003.1260270
  • Filename
    1260270