The actual demand of Internet services is increasing fast and the contents are
becoming heavier because of the higher demand of video and voice services as VoIP and
HDTV. This fact is pushing the actual infrastructure to the limit and service providers
are lead to invest in new technologies and new infrastructure. The solution seems to be
found in the use of cable and fiber optics but while this technologies are capable of
offering video and voice services they cannot offer the 3 services together (voice, video
and Internet access). Also the use of this technologies means that the whole actual
infrastructure need to be changed.
Meanwhile this technologies are not ready, the solution is to improve the
performance of the exiting copper pair infrastructure and nowadays the technology that
does this better is VDSL which can provide up to 52 Mbps on a single cooper pair loop.
Besides, VDSL, as other DSL technologies, is capable of providing Internet and voice
services because it is compatible with POTS and ISDN and in addition, VDSL can
provide video services thanks to the higher throughput.
To achieve this higher bit rates, VDSL uses the frequency range up to 30 MHz and
DMT modulations as OFDM that divides the frequency spectrum into a number of tones
as FDM but with the particular characteristic that the tones are orthogonal providing a
very limited intercarrier interference (ICI) and a better performance.
Summed to VDSL, in the last years, the use of multiple transmitters and
receivers is revolutionizing telecommunications. MIMO systems has been proved to be
a very useful tool to improve capacity in wireless communications by using several
antennas at the transmitter and the receiver side but it is also possible to use MIMO in
wired communications and in particular in DSL transmissions. For example, using 4
bonded lines it is possible to operate at more than 6 times the rate of a single line.
In this paper we will combine the benefits of VDSL and MIMO technologies to
implement simulations of the capacity on a system composed of 8 lines transmitting
together. The simulations have the purpose of seeing how the capacity of the system is
affected by internal and external phenomena as for example different kind of
interferences. In the part “Simulations of the capacity” you will find different
simulations of a binder of 8 lines using MIMO and VDSL with thermal noise and
3
external noise affecting as well as different power constraints. The external noise here
comes from a parallel transmission of another 8-line binder. There is also a simulation
of a SISO system with an external noise coming from the parallel lines of the original 8-
line binder.
We have considered 2 scenarios for the different simulations: the fist one where we
evaluate capacity with loops of different lengths and the second one where we evaluate
capacity for binders with different number of lines. The different simulations are:
– Capacity under total power constraints with Additive White Gaussian Noise
(AWGN).
– Capacity under total power constraints with AWGN and external noise.
– Capacity under per-modem total power constraints with AWGN and external noise.
– Capacity under per-modem total power constraints and spectral mask constraints
with AWGN and external noise.
– Capacity of a SISO system with AWGN and external noise (coming from the
parallel lines).
After evaluating each simulation separately there is a comparison of all them together
where we are able to see their achievements and their behaviors. |