Title :
Filtered multitone modulation for very high-speed digital subscriber lines
Author :
Cherubini, Giovanni ; Eleftheriou, Evangelos ; Ölçer, Sedat
Author_Institution :
IBM Zurich Res. Lab., Ruschlikon, Switzerland
fDate :
6/1/2002 12:00:00 AM
Abstract :
A filter-bank modulation technique called filtered multitone (FMT) and its application to data transmission for very high-speed digital subscriber line technology are described. The proposed scheme leads to significantly lower spectral overlapping between adjacent subchannels than for known multicarrier techniques such as discrete multitone (DMT) or discrete wavelet multitone. FMT modulation mitigates interference due to echo and near-end crosstalk signals, and increases the system throughput and reach. Signal equalization in an FMT receiver is accomplished in the form of per-subchannel symbol-spaced or fractionally spaced linear or decision-feedback equalization. The problem of channel coding for this type of modulation is also addressed, and an approach that allows combined removal of intersymbol-interference via precoding and trellis coding is described. Furthermore, practical design aspects regarding filter-bank realization, initial transceiver training, adaptive equalization, and timing recovery are discussed. Finally, simulation results of the performance achieved by FMT modulation for very high-speed digital subscriber line systems, where upstream and downstream signals are separated by frequency-division duplexing, are presented and compared with DMT modulation
Keywords :
adaptive equalisers; channel bank filters; channel coding; crosstalk; decision feedback equalisers; digital subscriber lines; intersymbol interference; modulation; transceivers; trellis codes; DMT modulation; FMT modulation; FMT receiver; VDSL; adaptive equalization; channel coding; data transmission; decision-feedback equalization; discrete multitone; discrete wavelet multitone; downstream signals; echo signals; filter-bank modulation; filtered multitone modulation; fractionally spaced linear equalization; frequency-division duplexing; interference; intersymbol-interference; multicarrier techniques; near-end crosstalk signals; per-subchannel symbol-spaced equalization; precoding; signal equalization; simulation results; spectral overlapping; subchannels; system throughput; timing recovery; transceiver training; trellis coding; upstream signals; very high-speed digital subscriber lines; Crosstalk; DSL; Data communication; Decision feedback equalizers; Digital filters; Digital modulation; Discrete wavelet transforms; Echo interference; OFDM modulation; Throughput;
Journal_Title :
Selected Areas in Communications, IEEE Journal on
DOI :
10.1109/JSAC.2002.1007382
