Title :
Bit rate maximizing window and equalizer design for DMT-systems
Author :
Ysebaert, Geert ; Vanbleu, Koen ; Cuypers, Gert ; Moonen, Marc
Author_Institution :
ESAT/SCD-SISTA, Katholieke Univ. Leuven, Leuven-Heverlee, Belgium
Abstract :
The classical equalizer structure in a discrete multi tone (DMT) receiver, as e.g. in asymmetric digital subscriber line (ADSL), consists of a (real) time domain equalizer (TEQ) combined with complex 1-tap frequency domain equalizers (FEQ´s). In addition, receiver windowing can be added in front of the demodulating DFT to improve the spectral containment of the DFT-filters. In this paper, a framework is developed for the combined design of an equalizer and a window that maximizes the achievable bit rate. This general framework allows to treat equalizer-only and window-only designs as well, which appear as special cases in a natural way. This bit rate maximizing design can serve either as a practical design method, or as an upper bound for existing (suboptimal) methods. For the same achievable bit rate it will also be shown that equalizer taps can be exchanged for window coefficients to obtain a complexity reduced receiver.
Keywords :
demodulation; digital subscriber lines; discrete Fourier transforms; equalisers; ADSL; DFT demodulation; DFT-filters; DMT-systems; FEQ; TEQ; asymmetric digital subscriber line; bit rate maximizing window; classical equalizer structure; complex 1-tap frequency domain equalizers; discrete Fourier transform; discrete multitone receiver; equalizer design; equalizer-only designs; spectral containment; time domain equalizer; upper bound; window coefficients; window-only designs; Abstracts; Bismuth; Bit rate; Equalizers; MATLAB; Receivers; Signal to noise ratio;
Conference_Titel :
Signal Processing Conference, 2004 12th European
Conference_Location :
Vienna
Print_ISBN :
978-320-0001-65-7
