Quote:
Originally Posted by MaverickJesus
Presumably there is a future standard that moves the TV streams off the traditional frequencies and pushes them across the IP layer instead, YouView style? That would open up an obscene amount of spectrum for raw broadband transit.
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Yet again we’re in danger of digressing off topic but without deliberately appearing to criticise or even ridicule your “presumption” I am genuinely interested on what basis you predicate this “obscene amount of spectrum for raw broadband transit” by future migration to TVoIP?
Currently both TV and BB(Data) are combined prior to (e)QAM and injected in a set frequency plan that is limited by the overall spectrum (5-1002MHz) currently dictated by DOCSIS3(.0)RFI infrastructure.
It’s currently therefore somewhat irrelevant whether you feeding TV,VOIP etc (or DATA) on downstream because they all are restricted by DOCSIS 144byte frame encapsulating a MPEG2/4 packet that either contains a raw (MPEG2/4) media stream or IP?
In fact using a DOCSIS for TVoIP just adds an additional protocol layer as far as I can see?
As unless you migrate to a higher compression algorithm (MPEG6 and /or QAM1024/2048 etc) in order to increase bandwidth utilisation then the alternative as you suggest means effectively discarding the DOCSIS wrapper overhead altogether ala BT21CN Infinity with Ethernet IP last mile?
Now I would suggest therefore that your presumption naively over trivialises the rather significant problems of logistics of how you get from A to B while maintaining backwards compatibility over the current physical RF infrastructure?
Clearly once again I am suffering from a senile comprehension problem and missed some enlightenment that is apparently embodied in your presumption?
If you accept the bandwidth is constrained by DOCSIS mac layer then removing this means a total redesign of the headend! Thats an awful lot of CAPEX outlay on replacing existing CMTS and also upgrades at client end.
Plugging in a NIC/ETHERNET is one thing but disposing of existing CM/SH is quite a challenge in itself, let alone visiting 4Million households given the need to replace a F connector with RJ11 Ethernet port not easily dismissing the fact that the underlying physics will still limit the segment length of Ethernet to only a few hundred metres without deploying Frame Relay,ATM, SONET intervening solutions?.
Now QAS has already alluded to a more practical roadmap by referring to DOCSIS3.1
That not only gives some more symmetry by introducing OFDM which primarily introduces 200MHz either at low,mid or top end splits for upstream but also set’s the foundation for expanding the current 5-1002MHz spectrum into future 1.4MHz-2.4MHz expansion commensurate with Satellite!
All that can be done while maintaining a practical migration of backwards compatibility without disproportionate investment in Head-end and existing client CPE….except….
Even that doesn’t necessarily highlight the difficulties VM face with their current RF Plant? The homologation of legacy franchises means a diverse range of line extender/street cab amps are proliferated through various area infrastructures.
Remember that a significant amount of RF plant was initially poached (off-the-shelf) from our US cousins a couple of decades ago and these Bidi Amps were centred on on DOCSIS/RFI of 5-55MHz/108MHz-860MHz in line with 6MHz NTSC as opposed to current (euroDOCSIS) split of 5-65/85MHz and 88MHz-1002MHz split of 8MHz bandwidths of PAL/SECAM for Europe etc!
VM stated a year or so ago that as part of their network upgrades 38,000 street cabs in the uk would need checking/refurbishing? It we employ some simple maths on that figure then published VM Company reports state there are 4.9Million TV/BB subscribers in the UK. This equates to approx 128 active customers per cab. However the initial flood cabling was designed as Homes Passed Per Node.
So if I walk down my road I observe that the street cabs are placed/spaced approx equivalent to 48 homes per cab and my feed from a primary street cab only has 24tap board, 1 main amp and 3 secondary amps. That infers there are 3 secondary “passive” cabs potentially supplying a total of circa 170 for my cable segment. Of course that deployment is factored on a street of semi detached 3/4 bed houses with an approx 15m frontage with shared drive.
The population demographics thus vary considerably with other parts of say Brighton with Victorian/Edwardian 3 story town houses that have subsequently in the decades now been converted to flats/apartments. Thus what was once classified as a single home passed with something like 14 rooms has now become at least 3 x 4 room separate domiciles! Consequently what was originally calculated 15yrs years ago as a static 25%-40% take-up rate HPPN has trebled since then with no complimentary civil engineering to offset ducting capacity and street furniture limitations!
Further more, obviously there is more than one type of DOCSIS/RFI topology deployed (to support QAS’s post) such that not all RF actives are soley contained within street cabs UK wide but can also be contained within cable pits as well!
Now we have the complexity of trying to extrapolate VM’s 38000 street cab figure to equate potential upgrade of number of cascaded amp chains that could either require minimal replugging of diplex filters or even replacing totally!
Even if these details weren’t commercially sensitive VM is not going to disclose any further useful detail because as can be seen above it will inevitably be area dependent anyway!
We can only speculate on what proportion of 38000 is upgrading street cabs because of tap board congestion and/or standardising amps to euroDOCSIS latest (or hopefully DOCSIS3.1) standard?
Also remember that every DOCSIS/HFC MSO worldwide is inexorably being driven towards a N+1 customer driven topology target before eventually looking towards a FTTP solution whether it be DPON or something radically different and VM haven’t even embodied a MTA second order product yet that is already an option with current NetGear VMDG485 product/chipset options!
So concluding on the initial opening question just how far is this future TVoIP premise of yours? I can’t realistically see this within 10yrs yet let alone 5? DOCSIS still has plenty of latent expansion potential with DOCSIS3.1/x even before another major point release?!!!
As I said earlier it's a genuine question...... enquiring minds really would like to know......
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