Comment by whazor
1 year ago
But with lasers, it makes sense to route your packets via space. For example traffic to a different continent would be faster (and cheaper) through space. Furthermore, I assume lasers have more capacity than gateways, so they could increase capacity of one satellite by bundling with more gateways.
Unfortunately, the routing to make this feasible doesn’t exist yet. Users need a single IP address from a range that’s homed at a single PoP. Starlink doesn’t support user-user connections through the mesh, you need to go all the way out to your PoP, then over to the other users PoP, then back through Starlink to that user.
Are you talking about peer-to-peer connections between two Starlink users, like if they were both in the same satellite's range but separated by a really tall mountain between, etc.?
I thought that Starlink always "landed" to a base station back in the same jurisdiction? I think relaying through space could open a regulatory can of worms.
What kind of worms?
All countries have strict regulations on radio waves, whether that's sending or receiving. The UK for example requires a license for base stations that stipulates things like geographical boundaries, etc.
You can't freely blast radio waves into a country without falling subject to its varying regulations, but the regulations for "pre Starlink" satellite broadband/phones/etc are fairly well established.
2 replies →
Bypassing spying, geofencing and other regulatory stuff, perhaps? Also curious what the can of worms might be.