Follow Slashdot blog updates by subscribing to our blog RSS feed

 



Forgot your password?
typodupeerror
×
Security Communications Transportation

Work Proceeds on Mitigation Strategies for Global Navigation Satellite System Jamming/Spoofing (eetimes.com) 29

Long-time Slashdot reader DesertNomad summarizes a report from EE Times: It's been known for a long time that the various Global Navigation Satellite System (GNSS) systems are easily jammed; the more "interesting" problem is the potential to spoof a GNSS signal and by spoofing use that to cause GNSS receivers to determine incorrect positions. The challenge lies in the observation that the navigation messages can be constructed by bad actors on the ground. Work going on for several years now has been to provide crypto signatures that have the potential to authenticate valid transmissions. Current commercial receivers can't take advantage of that, so there may be industry-wide needs to update the receiver devices.
"The vulnerability of the global positioning system, or GPS, is widely acknowledged..." reports EE Times: Spoofing creates all kinds of havoc. For example, it can be used to hijack autonomous vehicles and send them on alternate routes. Spoofing can alter the routes recorded by vehicle monitors, or break geofences used to guard operational areas. It also poses a risk to critical infrastructure, including power, telecommunication and transportation systems. Jan van Hees, business development and marketing director for GNSS receiver maker Septentrio, provided these analogies: "Jamming involves making so much noise that the [satellite signal] disappears. Spoofing is like a phishing attack on the signal."

The U.S. Coast Guard has recently tracked a growing number of high-profile incidents involving GPS interference. For example, the loss of GPS reception in Israeli ports in 2019 left GPS-guided autonomous cranes inoperable, collateral damage from the Syrian civil war. In 2016, more than 20 ships off the Crimean peninsula were thought to be the victim of a GPS spoofing attack which shifted the ships' positions on electronic chart displays to land.

The article recommends real-world auditing, testing, and risk assessment, adding that one pending fix is signal encryption "including a framework called open service navigation message authentication (OSNMA)." The OSNMA anti-spoofing service developed for the European GNSS system, enables secure transmissions from Galileo satellites to encryption-enabled GNSS receivers. In the midst of final testing, OSNMA will soon be available free to users... A secret key on the satellite is used to generate a digital signature. Both the signature and key are appended to navigation data and transmitted to the receiver. OSNMA is designed to be backward-compatible, so that positioning without OSNMA still works.
This discussion has been archived. No new comments can be posted.

Work Proceeds on Mitigation Strategies for Global Navigation Satellite System Jamming/Spoofing

Comments Filter:
  • And what about the other GPS systems?

    • Those and parallel U.S. efforts have prompted efforts to boost the resilience of GNSS systems.

      So both US and European systems are working to enhance their satnav constellations. Frankly, I don't care what Russia and China do with theirs.

      • Frankly, I don't care what Russia and China do with theirs.

        It's best if they keep it running smoothly, could make a handy backup. It's always better to have more than one system.

      • Re:RTFA (Score:4, Insightful)

        by caseih ( 160668 ) on Saturday April 24, 2021 @07:17PM (#61310220)

        Most cell phones and modern receivers pick up multiple GPS constellations, including Beidou and Glonass. If you combine all of them together that should mitigate some of the spoofing and jamming issues. Although I suspect they all operate in a close enough frequency band that jamming would easily knock out all of them at once. I've heard reports that with satellites from these four constellations, you can get a fix that's as accurate as WAAS without any SBAS. Not sure if that's true or not. Personally I think it's kind of neat that I am seeing up to 16 satellites at any one time on my GPS equipment.

        • Hey, A longer term of office provides the head of state with increased authority. The Global Peace Index (GPI) for United States is 2.038. The strength of legal rights index for United States is 11. Overall, it is considered to be rather strong - bancrupcy and collateral laws are able to protect the rights of borrowers and lenders quite well; credit information is abundant and easily accessible. http://www.confiduss.com/en/ju... [confiduss.com]
    • GPS appears to have completed updates last August. https://www.militaryaerospace.... [militaryaerospace.com]

    • Time to bring LORAN back..

      • by tlhIngan ( 30335 )

        Time to bring LORAN back..

        LORAN has too many limitations, including the fact that it needs a large amount of ground stations to operate. It is great over the oceans where its use of the HF bands means it can run for hundreds of miles, but less so inland. And the need for many stations means the system gets impacted if transmitters get turned off.

        So navigating an ICBM using LORAN isn't terribly useful since the target could turn off their transmitters thus confusing the missile. And being on HF means night

  • If they interfere with a satellite, crash the satellite into them. I don't think anything they come up with is going to top that.
  • ... Use all that are available to you and do a majority rule.

    That is, put in there GPS, Galileo, Glonass, BeiDo, the one from england (when ready), and the regional ones (Japan's QZSS and India's IRNSS) if you are close enough for those to be relevant, and do a majority rule (plus averaging) on them to find your location.

    Spuffing one is easy, but 3 at the same time, may be a challenge...

    Of course, if you are one of the 27 euro countries, or the USoA, or Russia, or China, or a few other countries, this may n

    • "... Use all that are available to you and do a majority rule. That is, put in there GPS, Galileo, Glonass, BeiDo," - The better maritime and aviation navigation systems do exactly that, plus a few anti-spoofing tricks to figure out which signals are reliable and which are not, plus inertial and compass guidance. It is only the El Cheapo commercial navigation units, which most everyone on Sloshdat use, that can be easily spoofed.
  • Thomas Guide (Score:3, Informative)

    by drainbramage ( 588291 ) on Saturday April 24, 2021 @07:03PM (#61310196) Homepage
    Still have the last Thomas Guide I bought back in 1999.
    I used to buy them every couple years.
    (Excellent maps and NOT complicated for the average person, really.)
    Don't complain that it only covers maybe one state, if the war comes and the SHTF then when the zombies are closing in I DO NOT CARE about directions to Jersey, I only need to know how to get from where I am to a place outside of what I think is the danger zone, and know what detours may be available.
    • OK, Boomer... ;)
    • You don't need a Thomas guide, you just need a wife. She can tell you exactly which turn to take next no matter where you are, and she's never wrong, even if it takes 27 turns and at least three u-turns when you could swear all that was needed was a single left turn.
  • Probably too late now, but GNSS isnt that old, why didnt they design the system with pub/private keys ?
    • by jusu ( 1253666 )
      No return channel?
    • Anti-spoofing was a core feature of the 1st generation GPS system. The technique was to encrypt the code using a symmetric algorithm.

      A spoofed transmission with the wrong key would appear as uncorrelated broadband noise to a receiver with the correct key. At the same time, the anti-spoofing process prevented unauthorised use of the signal, as a receiver without the key would receive nothing but noise. This functionality was only enabled for the "precise" (typically reserved for military and government in
    • It's a helluva lot more work to put that in than just to broadcast a time signal, and the key management is, like all key management, a nightmare.

      Speaking of crypto, the summary in the article is pretty garbled, written by someone who doesn't seem to understand public-key crypto. GPS NMA standard public-key crypto with a weird key size, NIST P-224. Galileo NMA uses the TESLA broadcast authentication protocol, which is a pretty complex and heavyweight protocol to run over GPS messages. You can immediatel

I cannot conceive that anybody will require multiplications at the rate of 40,000 or even 4,000 per hour ... -- F. H. Wales (1936)

Working...