Comment by Geee
14 hours ago
Starlink uses beamforming with directional antenna arrays, so it should be rather difficult to jam compared to omnidirectional antennas. It's basically a dish pointed at the satellite, so the jammer should be in between to work.
Antenna arrays aren't perfect so it still picks up some energy omnidirectionally, but it should be possible to shield it with some metal plates in a way that only sky is visible.
> basically a dish pointed at the satellite, so the jammer should be in between to work.
Which isn't hard to do if you have the budget of a government. Directional antennae, GPS and a helicopter/Cessna flying patterns over a metro. Beams from the terminal are constantly scanning the sky chasing the constellations.
A higher hit rate option would be a fleet of low altitude drones taking high-res pictures of the ground, and running a fine-tuned classifier to identify Starlink Dishies which require a clear line of sight to the sky.
People who think Starlink is unblockable, or somehow anonymous IRL are unimaginative. Iran is well-versed enough with electronic warfare that it tricked a RQ-170 Sentinel land on it's territory - how hardened are Starlink terminals against responding to a spoofed signal and exposing their locations?
Doesn't Starlink use some sort wideband signal which is hard to jam? Combined with some sort of frequency hopping and a moving constellation should mean blocking a user or satellite signal should be pretty hard, like many times the cost of building and servicing a user terminal for use against protesters.
> Doesn't Starlink use some sort wideband signal which is hard to jam?
It probably is hard to jam, but you don't need to jam it if you can pinpoint terminal locations and send in on-the-ground enforcers to confiscate the equipment and make arrests. TV detector vans were introduced in 1952[1], the principles for finding sources of RF emissions isn't cutting edge technology.
1. https://en.wikipedia.org/wiki/TV_detector_van
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I think, to beamform in the right direction you have to be able to locate yourself precisely, have an up-to-date almanach of the satellites, and a precise enough datation source. Jamming GNSS is a source of problems for 2 of those issues.
Also, the antennas on starlink dishes are still pretty small, likely to pick up some hard-to-remove sidelobes and the tech to cancel them properly might be export-controlled. You still need to be within electromagnetic visibility to jam them, though.
Yes, afaik the source of issues is GPS jamming.
To add to my point, with multiple antennas it's also possible to spatially separate signals. Not sure if Starlink is doing that, but I think it should be possible to escape GPS jammers by using two antennas with some distance between them. Two antennas can pick up the direction of the signals and with some math they can be separated, at least in theory.