UVB-76 is a number station transmitting one-time pad encrypted messages. Old transport technology (radio) sending old, unbreakable crypto technology (one-time pad encrypted messages) at the speed of light all across the world. These technologies (as old as they are) will never be replaced with new infrastructure dependent technologies. The key is that they allow for decentralized, secure comms at the speed of light. No satellites or fiber required. It only takes a handful of guys to do it too. You can even run them from solar panels and battery packs from caves in Timbukto. Take that, nation state controlled Internet.
The Great FireWall of X, does not stop radio. Try to jam omni-directional NVIS. Better yet, try to locate the guys receiving it.
To be fair though, this is broadcasting, i.e. a one-way tech. It's also "decentralized" up to a point.
I see your point though. It's what I feel when I see 70-year-old cars still running: any car made after 2000 relies on electronics in a way that will make them unusable in a few years from now; but those old tin-boxes will still be around then and beyond.
> The key is that they allow for decentralized, secure comms at the speed of light.
Until someone sends in a drone with a radio-seeking attachment on it and a few hundred pounds of high explosives strapped to its ass. It's hardly infrastructure-free when the infrastructure it relies on has just been blown to Hell.
There's a 5-CD set released by a British label with only recordings of number stations. This guy obsessed with them has been recording for a long, long time. Check it out:
"But no one has been able to triangulate exactly where the broadcast is coming from." - How difficult and expensive would it be to build a system to exactly triangulate these stations? It seems if you had three receivers many miles apart and precisely synchronized, and you timed the signals at nanosecond resolution, then you could correlate and find the location within a foot. I'm sure it's much harder than that, but it seems with SDR you should be able to do much better than primitive triangulation based on approximate direction. Does anyone know how to do high-accuracy triangulation.
On a different topic... "If you drop a rock in this hole, it will take about a second to reach the bottom—whatever is down there is at least 32 feet below ground." - I've been thinking about high-school physics a lot lately so I feel obligated to point out that 1/2 A T^2 would be 16 feet.
Part of the problem with that technique is that the waves are effectively propagating in a waveguide (between the surface of the earth and the ionosphere). So the characteristics of the waveguide (such as the conductivity of the ground) influence the speed of propagation. It's certainly important for things like LORAN, and I'd be surprised if it wasn't for this.
FWIW, I came across this. Apparently there are updates very recently which claim to shed light on some parts of the mystery and has plenty of tech detail:
Side note: there's something really beautiful about the way analog radio degrades compared to digital transmission technologies. A couple years ago I got back into listening to golden age radio shows, some of them have gone through several layers of analog degradation before finally being digitized and there's a certain kind of beautiful quality to the way they sound.
I remember as a kid when my grandmother bought me a cheap multi-band radio that could received shortwave and spending hours finding stations just to listen to the texture of the sound.
Even the static can be soothing.
I often times remember songs being better sounding under the distorting effects of AM radio than when I hear them in full digital glory.
BBC Radio 4 did a good, enjoyable documentary on the subject of Numbers Stations, "Tracking the Lincolnshire Poacher" - though more focused on the British side of affairs.
Dr. Strangelove: Of course, the whole point of a Doomsday Machine is lost, if you keep it a secret! Why didn't you tell the world, eh?
Ambassador de Sadesky: It was to be announced at the Party Congress on Monday. As you know, the Premier loves surprises.
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[ 4.0 ms ] story [ 42.7 ms ] threadThe Great FireWall of X, does not stop radio. Try to jam omni-directional NVIS. Better yet, try to locate the guys receiving it.
I see your point though. It's what I feel when I see 70-year-old cars still running: any car made after 2000 relies on electronics in a way that will make them unusable in a few years from now; but those old tin-boxes will still be around then and beyond.
Of course the climate controls, radio and other stuff will eventually become useless with no direct replacement parts.
Until someone sends in a drone with a radio-seeking attachment on it and a few hundred pounds of high explosives strapped to its ass. It's hardly infrastructure-free when the infrastructure it relies on has just been blown to Hell.
http://en.wikipedia.org/wiki/The_Conet_Project
Also: http://en.wikipedia.org/wiki/Numbers_station
And compulsory link to wiki https://en.wikipedia.org/wiki/UVB-76
On a different topic... "If you drop a rock in this hole, it will take about a second to reach the bottom—whatever is down there is at least 32 feet below ground." - I've been thinking about high-school physics a lot lately so I feel obligated to point out that 1/2 A T^2 would be 16 feet.
https://en.wikipedia.org/wiki/Wullenweber
http://www.engadget.com/2014/06/06/this-is-the-truth-behind-...
http://shortwaveradioworld.blogspot.com/2014/07/uvb-76-buzze...
I remember as a kid when my grandmother bought me a cheap multi-band radio that could received shortwave and spending hours finding stations just to listen to the texture of the sound.
Even the static can be soothing.
I often times remember songs being better sounding under the distorting effects of AM radio than when I hear them in full digital glory.
You can listen to it here http://www.youtube.com/watch?v=Wvr6o7fBcTY
They play a lot of the recordings and go into a fair bit of detail. It is a good listen, highly recommend.