Title :
Joint signaling techniques and spectral optimization for symmetric bit-rate communication over self-NEXT-dominated channels
Author :
Gaikwad, Rohit V. ; Baraniuk, Richard G.
Author_Institution :
Broadcom Corp., San Diego, CA, USA
fDate :
7/1/2004 12:00:00 AM
Abstract :
We present a framework for maximizing the capacity of symmetric bit-rate communication services dominated by Gaussian crosstalk, in particular, digital subscriber line (DSL) services. We solve for optimal transmit power spectral densities (PSDs) that maximize the joint capacity of same-service users and yield significant gains in bit rates (or performance margins) over current schemes. Our results differ from previous work in that we develop transmit spectra in the presence of self-far-end crosstalk in addition to self-near-end crosstalk, present optimal contiguous spectra for practical modulation schemes, and derive optimal spectra under an additional frequency-domain peak-power constraint. Furthermore, by design, the optimal transmit PSDs are spectrally compatible with existing services on neighboring lines.
Keywords :
Gaussian channels; channel capacity; crosstalk; digital subscriber lines; frequency-domain analysis; modulation; multiuser channels; optimisation; telecommunication signalling; Gaussian crosstalk; digital subscriber line services; frequency-domain peak-power constraint; information rates; modulation schemes; multiuser communication; power spectral density; self-NEXT-dominated channels; self-far-end crosstalk; self-near-end crosstalk; signaling techniques; spectral compatibility; spectral optimization; symmetric bit-rate communication services; transmit power spectral density; Bandwidth; Bit rate; Context; Crosstalk; DSL; Frequency conversion; Information rates; Performance gain; Testing; Transfer functions; Crosstalk; DSL; digital subscriber line; information rates; multiuser communication; spectral compatibility;
Journal_Title :
Communications, IEEE Transactions on
DOI :
10.1109/TCOMM.2004.831373
