Understanding digital subscriber line technology
Understanding digital subscriber line technology
DSL Advances
Partial crosstalk precompensation in downstream VDSL
Signal Processing - Signal processing in communications
Partial crosstalk cancellation for upstream VDSL
EURASIP Journal on Applied Signal Processing
A Near-Optimal Linear Crosstalk Canceler for Upstream VDSL
IEEE Transactions on Signal Processing
Vectored transmission for digital subscriber line systems
IEEE Journal on Selected Areas in Communications
Distributed multiuser power control for digital subscriber lines
IEEE Journal on Selected Areas in Communications
Optimal spectrum management of DSL with nonstrictly convex rate region
IEEE Transactions on Signal Processing
Hi-index | 0.09 |
In modern DSL systems, crosstalk is a major source of performance degradation. Crosstalk cancellation techniques have been proposed to mitigate the effect of crosstalk. However, the run-time complexity of these crosstalk cancellation techniques grows with the square of the number of lines. Therefore one has to be selective in cancelling crosstalk to reduce complexity. Secondly, crosstalk cancellation requires signal-level coordination between transmitters or receivers, which is not always available. Because of accessibility constraints, crosstalk between certain lines cannot be cancelled and so has to be mitigated through spectrum management. After a complexity study, this paper presents a solution for the joint spectrum management and constrained partial crosstalk cancellation problem. The complexity of the partial crosstalk cancellation part of the problem is reduced based on a line selection and user independence observation. However, to fully benefit from these observations, power loading has to be applied in the spectrum management part. We therefore also consider ON/OFF power loading, which has a low complexity and shows only a minor performance degradation compared to normal power loading. The resulting algorithm will be compared to currently available algorithms for independent spectrum management and partial crosstalk cancellation.