It's cheap in Lithuania and other countries because they were was no significant prior investment in telecoms infrastructure, and the costs of deployment are generally lower too (cheaper labour, easier planning-permission) - so when it comes to deploying Internet access to a previously disconnected community it only makes sense to roll-out the bleeding-edge technology (e.g. FTTH).
Whereas in the UK, BT was/is obsessed with squeezing every last drop of bandwidth from POTS connections - because the cost of upgrading everyone's last-mile connections from copper (or even aluminium in some cases) to fibre is very cost-prohibitive: look at the sheer cost the cablecos shouldered during the mass roll-out of coax in the early-1990s (and even then, it was only to boxes in the street, not houses) - I understand their near-bankruptcy from this move lead to them all coming together under NTL and Telewest, and then Virgin Media.
(The only thing that is inexplicable is how even modern, brand-new housing developments still have unshielded copper last-mile connections instead of FTTH: they don't even lay conduits to make it easier for possible future FTTH... idiocy)
Give the UK a few more years and there should be a mandate from above requiring FTTH and we'll see progress: maybe even 10Gig FTTH as standard, then the tables will turn and people in Lithuania will be stuck with their 1Gbps service until their next round of major infrastructure investment, potentially decades away.
(I'm aware that Fibre is generally more future-proof than copper, and a high-quality fibre line that handles 1Gbps today can easily handle 10Gbps, and potentially 40Gbps or even 100Gbps in the future - so my entire argument may be moot)
BT was/is obsessed with squeezing every last drop of bandwidth from POTS connections ... that wasn't what they wanted to do at all.
BT were preparing to do FTTH when I joined them in 1994 (I left in 2001). This was as you say going to be eye-wateringly expensive because BT have a universal provision requirement - they couldn't upgrade the network in the cities and not do it in the countryside. The idea was to pay for this by providing television services, but OfTel (now OfCom) said this would be unfair competition with the cable providers - who were cherry picking cities to make rollout cheaper. They would also have been in competition with Sky, which meant the Murdoch press lobbying against BT (among others; the media market is always a tangle of interests)
Additionally, local-loop unbundling (ie ADSL) was being proposed; BT were required to allow access to the last-mile network from in-exchange equipment, and do this at line rental prices that undercut themselves, in order to break their monopoly. OfTel were very likely to make the same requirement for FTTH/FTTC.
Of course, you pays your money you makes your choice - if BT had been allowed to go ahead with their TV services back then, we might've had FTTH way sooner, but BT probably still would have had a monopoly.
Source: I met the engineers doing FTTH on my first visit to Ipswich, I was part of the team working on the local-loop unbundling ordering systems (where other providers booked engineering time at exchanges) and gave presentations to them at OfTel's offices.
> Whereas in the UK, BT was/is obsessed with squeezing every last drop of bandwidth from POTS connections - because the cost of upgrading everyone's last-mile connections from copper (or even aluminium in some cases) to fibre is very cost-prohibitive
This is especially frustrating if you have a line that's directly connected to an exchange - you don't even benefit from the FTTC upgrades. Download-wise I can't complain too much - ~20Mbps is fine most of the time (though with family members that tend to leaving streaming video running constantly and various game consoles that auto-update almost constantly it's not ideal), but the sub-1Mbps upload speed is terrible. If I've anything large to upload, it's usually faster to take it to my grandparents' house - connected to the same exchange, but get a order of magnitude greater upload speeds because they are connected via a cabinet.
> (The only thing that is inexplicable is how even modern, brand-new housing developments still have unshielded copper last-mile connections instead of FTTH: they don't even lay conduits to make it easier for possible future FTTH... idiocy)
Reminds me a story my granddad told me from the 60s/70s (not sure exactly when it was). They'd just finished constructing a new road, laid all the conduits under the road for the various utilities, left them plainly labelled (IIRC it was also pre-planned with the companies, but not certain).... then came back two weeks later to find multiple utility companies had dug up parts of the road to lay their own and done a rough job of patching it back up. He was (understandably) less than impressed!
One of the things that really helped is that all passive telecommunications infrastructure is by law "common use" - so things like ducts, pipe work, man holes, poles, etc can be used by any company. This has really helped to level the playing field so a single company doesn't have an unfair monopoly because it was there first (cough BT cough). Where I'm living right now cable and DSL was available (maybe up to 50mbit?), but last year fibre was rolled out by a different company. There are also guidelines on how the infrastructure should be delivered within buildings, so most apartment buildings have duct work going from the basement to the top floor, and space for the providers equipment for future upgrades.
Where I live in the states, telephone pole access is "common use" but the bureaucracy around actually being able to do so makes it pretty much impossible to add new lines (eg: needing to get a expensive environmental review for adding a wire to a pole that already has wires). Last I checked it took about a dozen permits which took ~12-24 months to get. After you got the permits, you then needed to pay for the inspection and full replacement of any poles found to be old/substandard that you wanted to attach to.
Whereas in the UK, BT was/is obsessed with squeezing every last drop of bandwidth from POTS connections - because the cost of upgrading everyone's last-mile connections from copper (or even aluminium in some cases) to fibre is very cost-prohibitive: look at the sheer cost the cablecos shouldered during the mass roll-out of coax in the early-1990s (and even then, it was only to boxes in the street, not houses) - I understand their near-bankruptcy from this move lead to them all coming together under NTL and Telewest, and then Virgin Media.
(The only thing that is inexplicable is how even modern, brand-new housing developments still have unshielded copper last-mile connections instead of FTTH: they don't even lay conduits to make it easier for possible future FTTH... idiocy)
Give the UK a few more years and there should be a mandate from above requiring FTTH and we'll see progress: maybe even 10Gig FTTH as standard, then the tables will turn and people in Lithuania will be stuck with their 1Gbps service until their next round of major infrastructure investment, potentially decades away.
(I'm aware that Fibre is generally more future-proof than copper, and a high-quality fibre line that handles 1Gbps today can easily handle 10Gbps, and potentially 40Gbps or even 100Gbps in the future - so my entire argument may be moot)