It feels like we are on the tipping point of a total technology collapse. Newspapers are publishing AI hallucinated news and don't understand why their editors aren't catching it. GPS and mobile communications are subject to jamming/spoofing. Public utilities are subject to hacking. Air traffic control is teetering on the edge of a cliff. And our best technical minds are working on keeping teenagers addicted to 15 second dopamine hits.
Almost all index pages are zero effort machine generated pages. I'm not entirely sure about it being an effect over time but Newspapers use to have tiny articles summarizing page 12 which later(?) became "more on page 12".
For a while (until I got to lazy) I maintained a front page article that talked about everything going on in the blog linking to tag pages that should have (but didn't) enjoy the same love. It was challenging to have a single sentence describe a group of articles and string those sentences into an article that sufficiently hides the truth that the blog randomly rambled all over the place. There was a lack of urgency for new articles to appear (except from the rss feed) in stead the front page article revealed missing posts. You could compare it to a wiki (while html offers the same utility) but the blog had 3 clear levels and blog like articles that rarely got updated.
It had me spend some thoughts on the absurdity of putting a log file on the front page or attempting to massage that automation into something nice? Everyone is doing it so it must be right.
The reason is that everything is nearshored and outsourced, where starting from age 35 they stop responding to your CV. Then everyone are hired on some form of "1 person company" B2B basis where software professional has no power to push back.
You probably read too many news articles that were written to put you in a state of despair about the present and the future. Mass media and social media want you to feel miserable; don't let them.
And even earlier. Thomas Jefferson, writing in 1807:
"Nothing can now be believed which is seen in a newspaper. Truth itself becomes suspicious by being put into that polluted vehicle. The real extent of this state of misinformation is known only to those who are in situations to confront facts within their knolege with the lies of the day. I really look with commiseration over the great body of my fellow citizens, who, reading newspapers, live & die in the belief, that they have known something of what has been passing in the world in their time; whereas the accounts they have read in newspapers are just as true a history of any other period of the world as of the present, except that the real names of the day are affixed to their fables. General facts may indeed be collected from them, such as that Europe is now at war, that Bonaparte has been a successful warrior, that he has subjected a great portion of Europe to his will, &c., &c.; but no details can be relied on. I will add, that the man who never looks into a newspaper is better informed than he who reads them; inasmuch as he who knows nothing is nearer to truth than he whose mind is filled with falsehoods & errors. He who reads nothing will still learn the great facts, and the details are all false."
> It's the same reason so many outlets are willing to uncritically republish corporate press releases with little to no editing.
I'd add a big reason outlet do that is because nobody gets sued for publishing a press release. Good journalism attracts lawsuits like nothing else (bad journalism can as well, but mostly just if you are lying).
This has additionally led to newspapers using the most passive voice possible. Instead of "Foo company dumps 10 tons of toxic waste into the public water" they'll headline it as "A mishap at a local business has resulted in some chemical spillage".
> Those concerns intensified this week with cryptocurrency exchange Coinbase disclosing that as many as 97,000 customers have had their personal information stolen, including addresses and balance snapshots.
Since that was The Wall Street Journal, I don't know that the reason is fear of lawsuits. It could just be extreme business-friendliness, or Rupert Murdoch seeping in.
I mean there’s also 3) doggedly run down ever thread of information connected to the subject of their interest until they’re able to compose a piece that exhaustively describes the entire thing and leads the audience to the same conclusion and knowledge that they’ve worked so hard to accumulate.
Books are much better for that than newspapers. Usually journalists who do that sort of thing end up turning it into a book, because that fits the scope of their work better.
catastrophic thinking is a mental state.. what you say is true but not new to many.. constructive engagement is called for in this age of precision and network
"A single 1-kW jammer can take down GPS for a 300-nm radius.[...] A CRPA can shrink the effective radius of the 1-kW jammer to 3 nm. The jammer’s area of effectiveness is slashed from 280,000 m² to 28 m²."
An example of the kind of unit confusion that could crash a Mars orbiter?
I thought we were talking about nanometers and square meters here for a second. But this only makes sense if "m²" means square miles and "nm" means nautical miles. How about at least using "mi" for miles to reduce confusion?
True, "nm" initially seemed to be nautical miles, but then this square meters thing appeared. The point is that "m" should be meters, but "mi" would be a more customary abbreviation for miles in the U.S.
Agreed, though there's a space between the number & the unit which generally indicates non-SI units (SI should never have a space). The switch from nautical to statute miles is still really weird though.
> There is a space between the numerical value and unit symbol, even when the value is used in an adjectival sense, except in the case of superscript units for plane angle.
Please don't complain about tangential annoyances—e.g. article or website formats, name collisions, or back-button breakage. They're too common to be interesting.
Oof, especially regarding GPS, nm (nanometer) and ns (nanosecond) are frequently used units of measurement. Nautical miles seems like it'd be more of a seafaring term?
Slight technical nit-pick: 1 nautical mile is 1/60th of a degree of latitude only, since the distance represented by angular longitudes varies depending on where you are on earth.
Aeronautical navigation also uses nautical miles. And as the article says: "A quarter century ago, the primary use for GPS was aviation and marine navigation".
Maybe don't bag on an entire country without examining your own prejudices.
Nautical miles are used in this article by an aviation magazine presumably because they are the global standard for marine and aeronautical navigation, and have been since well before the metric system was a global standard. It is also worth noting that the US does not use nautical miles as a standard, they use statute miles.
FYI, nautical miles are a useful standard for global navigation since they are referenced to the size of the earth itself.
GPS jamming is certainly a fun problem to deal with... I've been getting into GPS for timing data, and especially if you're building a global network or coordinated system using GPS as the time source, you have to account for it if you care at all about time stability.
Apparently (I haven't had this happen personally, yet) many truckers install GPS jamming cigarette lighter accessories in their trucks when they want to mask their location from trucking companies that track them everywhere. That can wreak havoc on GPS receivers at facilities, especially if you have, say, a logistics building right next to a datacenter.
> "A single 1-kW jammer can take down GPS for a 300-nm radius."
This is one of those occasions when capitalisation really matters: "nm" (lowercase) is nanometer, the tiniest of scales. On the other hand, "NM" (uppercase) is nautical miles, used in aviation (because aviation is stuck in the age of sail, and measures distance in boat miles and speeds in boat miles per hour)
All Aviation literature will tell you to never spell it lowercase, and this is why. There's a lot of physics in aviation, and it's too easy to misread things. Always get your units right.
"The Russians" is a copout, though, if you can buy a GPS jammer for 50 bucks. It's commonly used e.g. by truckers who'd prefer their corporate liege lord don't track them every second they exist.
You'll have to make GPS more secure with or without geopolitical consequences for Russia, so why don't we focus on the actual topic of the article.
Truckers have been doing that for a while. It's become a serious threat to the safety of those using GPS only for the last few years when the Russians started doing it for entire regions.
There will always be holes in technology that exist to be exploited for nefarious purposes. The best way to deal with it is to present strong consequences for those who would exploit them.
> Scott said of the rule change. “You’re not going to be able to buy them at Walmart or on Amazon, they’ll still be export controlled, but not on the munitions list.”
> Goward says Todd Humphreys of the University of Texas Radionavigation Laboratory suspects that China’s Beidou can mimic and spoof both GPS and Galileo signals.
Galileo has optional cryptographic signatures of its navigational data. They embed the data into their broadcast. Can be used for free.
Galileo’s open service (civil-access) E1 signal incorporates public/private key encryption to digitally sign and authentify data. False Galileo signals from malicious forces are easily detected and rejected by GNSS receivers because they lack encryption watermarks. The feature, called Open Service-Navigation Message Authentication (OS-NMA), has been fully operational since August 2023.
The time in the device isn’t independent of the received signal. The device typically has a clock that is much less accurate than the timesignal that gets set based on the gps signal. There aren’t many devices that can rival a gps satellite for time accuracy. A spoofed gps signal would not differ enough in time from a real one to tip you off.
Further, a big part of the working of GPS is that your location is trilaterated from discrepancies in time from the various signals due to time of flight.
The only way to accurately detect a spoofed signal is if you already know your location. (You can infer spoofing using IMUs, or signal analysis, etc… but that is a rare capability at this point)
>One of the deadliest GPS L1 civil signal interference events occurred on Dec. 25. On that date, Azerbaijan Airlines Flight 8243, an Embraer 190, was lured off course while enroute from Baku, Azerbaijan, to Grozny, Russia.
I am not seeing anything about that in the Wikipedia article:
It sounds like the GPS was jammed, not spoofed. The aircraft had already shot some missed approaches at the destination airport before the event that caused the loss of the aircraft.
"GPS is falling behind Galileo and Beidou as the preeminent GNSS"
I remember, that Galileo went offline a few years ago for some days - and the joke was, no one noticed. So possible that today there are more regular users and possible that there are some advanced features of Galileo like the mentioned
"Galileo’s open service (civil-access) E1 signal incorporates public/private key encryption to digitally sign and authentify data"
But I think GPS falling behind Galileo would imply a bit more Galileo users, compared to GPS. Which would surprise me.
A number of "GPS" receives also received Galileo and Beidou. They then combine all the data to figure out the correct position. Likely the GPS chip in your phone will do more than one system. Any one system alone can provide a position (sort of - Japan has a system that only covers the area around Japan) so the loss of one isn't a problem.
Is that actually true here? Satellite constellations move in complicated ways, so a receiver should be able to detect "impossible" configurations if the stream from only one satellite is delayed. If they are all delayed, then wouldn't that also cause the receiver's position to fail to resolve?
An attacker can receive all streams, delay the data from each satellite a variable amount, then retransmit them all again to appear to be in a different location.
Then also delay signals from other gnss providers to match.
I have witnessed this done in Iraq, so someone has already built the capability.
The fundamental weakness of GPS and similar is that they are a set of beacons from which a position may be calculated. This has simplified the navigation task but also made that task more fragile.
Navigation itself must "toughen up" and the seeds for that are being deployed to autonomous systems as simultaneous localization and mapping (SLAM). Instead of being dependent on a single data source, a toughened system would infer location from many sources: magnetometers, photogrammetry, inertial measurement, and other sources of radiation (ex star trackers). The article does cover some developments in these areas as a second line after advocating for breaking changes to the current radio-time system.
GPS jamming and spoofing will not abate anytime soon. The first line of defense is to crosscheck GPS PNT against inputs from other sensors. Parkinson advocates “deep integration,” or close coupling, of GPS sensors and inertial reference platforms, such as laser, fiberoptic gyros and microelectromechanical gyros and accelerometers, to flag obvious GPS signal interference.
It does seem that if next-gen GPS tech isn't already being tested/deployed then we've managed to already begin falling behind. GPS III just isn't anywhere near as useful in a non-permissive environment
Also, I read something on ITAR being relaxed specifically for CRPAs, this year, so maybe some of this is improving? ->
Not directly related, but I also think its impressive that a major airliner could take a SAM hit, from what was likely a Pantsir-S1 (20KG of HE moving at Mach 2 is not something airlines usually design for) and still land with half the souls surviving. While not great, that is certainly far better than I expected and shows some excellent airmanship.
I did a Ctrl+F and it doesn't mention once Inertial Navigation Systems (INS)[1]?
As long as an external signal for navigation is used, the problems of external signals will remain. INS doesn't suffer from this issue and is already used in planes, ships, cars and phones for years. Actually I miss INS in cycling computers, it could fix so many issues.
But not that much, the wiki states 650 meters in an hour. Is that enough for crossing the Atlantic Ocean with an airliner? Cheap car navigation can bring you through long tunnels (kilometers).
INS Navigation is old. It was used in V2 rockets. Primitive civilian systems were available in the B707, better in the 747 (70ies). Now we have them for many years in Integrated Circuits (I don’t know about their precision). The things modern cruises missiles like Taurus do are impressive. IF GNSS is not useable they use INS. INS loses precision. But they add a radar altimeter and compare that to locally stored map data or an image recognition (IR-Sensors looks for specific items on waypoints) to recalibrate in flight.
One problem seems that we rely on GNSS correcting the INS. That’s fine if the signal is lost, INS takes over. That’s bad if the signal is spoofed, GNSS lies to INS and INS copies the error. That’s what happened over the Middle East and East Europe. I’m not sure if pilots can turn that auto-correction off. I hope so.
PS: Please don’t remember what I mentioned when you watch Top Gun 2. The movie would be short.
Don't phased array antennas and similar need to be on a somewhat stable platform to be able to track a satellite? I can't imagine that would work too well in a mobile phone
'stable' on the timescale of radio waves is like claiming the statue of liberty isn't on a stable platform because one day continental drift will move it about...
For sending yes depending on what you mean as stable. For slow moving objects or fast moving objects with a steady heading (low changes in direction of the velocity, or acceleration) it isn't that much of a challenge anymore. For fighter aircraft or some of the faster drones it still presents a challenge that is expensive, but solvable with today's technology (at least from my understanding, the best of these systems are still highly classified).
For receiving however, you can simply use a phased array antenna to gain directional information in addition to your magnitude. This allows you to ignore interferance that is coming from the ground (though not any from a jammer located above the device, or any reflections from the atmosphere). The effect of this is somewhat like a shotgun microphone.
(I'll save you a click: They're Gold codes, long pseudorandom sequences with carefully chosen autocorrelation and cross-correlation properties. In CDMA parlance, chipping sequences. The exact same thing.)
Now that the US is no longer cooperative with other nations who are "taking advantage" of us, we should probably not expect to see the same level of international cooperation on GNSS as we have seen to date.