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Communications United States Wireless Networking

How Europe Rolled Out 5G Without Hurting Aviation (cnn.com) 120

gollum123 shares a report from CNN: Major international airlines are canceling flights to the United States over aviation industry fears that 5G technology could interfere with crucial onboard instruments. But it's business as usual in Europe, where the latest generation of high speed mobile networks is being rolled out without a hitch. Why is there a potential problem in the United States, but not Europe? It comes down to technical details.

Mobile phone companies in the United States are rolling out 5G service in a spectrum of radio waves with frequencies between 3.7 and 3.98 GHz. The companies paid the US government $81 billion in 2021 for the right to use those frequencies, known as the C-Band. But in Europe, 5G services use the slower 3.4 to 3.8 GHz range of spectrum. The aviation industry is worried that US 5G service is too close to the spectrum used by radar altimeters, which is between 4.2 and 4.4 GHz. Europe does not face the same risk, according to the industry, because there is a much larger buffer between the spectrum used by radar altimeters and 5G.

There are other differences in how 5G is being rolled out, according to the US Federal Aviation Administration (FAA). Other countries are using lower power levels, restricting the placement of 5G antennas near airfields and requiring them to be tilted downward to limit potential interference with aircraft. In France -- cited by telecom carriers such as AT&T and Verizon as an example of 5G and aviation working seamlessly together -- the height of a 5G antenna and the power of its signal determine how close it is allowed to a runway and the flight path of an aircraft, according to a technical note from France's National Frequency Agency (ANFR). Antennas around 17 major French airports are also required to be tilted away from flight paths to minimize the risk of interference, the agency's director of spectrum planning and international affairs, Eric Fournier, told CNN.

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How Europe Rolled Out 5G Without Hurting Aviation

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  • Planning (Score:4, Interesting)

    by kyoko21 ( 198413 ) on Wednesday January 19, 2022 @08:40PM (#62189863)

    Without even reading the story and just looking at some of the highlights, it sounds like the Europeans took a more pragmatic approach and thought in advance of deployment details.... I mean, planning ahead seems like such a easy thing, why did we not think ahead ourselves....?

    That is definitely a head scratcher.

    • Re:Planning (Score:4, Informative)

      by ceoyoyo ( 59147 ) on Wednesday January 19, 2022 @08:51PM (#62189909)

      Canada too. Both Europe and Canada have had 5G deployed for several years with no incident.

      On another note, it sounds like radar altimeters are pretty shite.

      • by Luckyo ( 1726890 )

        Radar altimeters are excellent, and function exceedingly well to prevent specific kinds of landing accidents since they became widely used.

        • Re:Planning (Score:5, Insightful)

          by ceoyoyo ( 59147 ) on Wednesday January 19, 2022 @10:08PM (#62190081)

          Radio devices that cease to function because someone is transmitting 400 MHz out of their band are not excellent.

          • Re:Planning (Score:5, Informative)

            by rjr162 ( 69736 ) on Thursday January 20, 2022 @08:07AM (#62191047)

            From things I've read and put together:

            Europe is using 3.4 to 3.8 GHz
            US is using 3.7 to 3.98 GHz

            The radio altimeters use 4.2 to 4.4 GHz

            So the spacing in Europe is 400 MHz, which is fine, but in the US it's 220 MHz

            The other thing is, apparently, the US radio/antenna setups are up to 2 times as powerful as those used in Europe and the antenna are installed in vertical positions in the US vs they're tilted away from any finals/flight paths in Europe.

            So it's not an apples-to-apples comparison when someone says "well Europe did it, so it's all fine!"

            On top of that, the AT&T spokesperson quote of "We are frustrated by the FAA's inability to do what nearly 40 countries have done, which is to safely deploy 5G technology without disrupting aviation services, and we urge it do so in a timely manner" (Megan Ketterer, an AT&T spokesperson)
            What? The FAA isn't deploying 5G, the wireless carriers are with the backing of the FCC. If anything, you should be asking why your own companies (and by extension the FCC) cant' deploy 5G without interrupting aviation services. I've seen reports where the concerns from the FAA were forwarded to the FCC for quite a while now, but...

            • by Average ( 648 )

              If the radar altimeters licensed between 4.2 GHz and 4.4 GHz *actually* require nothing else doing from 3.8 to 4.8 GHz, then declare that in the regulation, call that the radar altimeter band, and don't sell rights anywhere in that range.

              • If the radar altimeters licensed between 4.2 GHz and 4.4 GHz *actually* require nothing else doing from 3.8 to 4.8 GHz, then declare that in the regulation, call that the radar altimeter band, and don't sell rights anywhere in that range.

                Either that, or plan far enough in advance that the airlines have more than ample time to replace the equipment in question. Three years seems like a long time, but in aviation terms it really isn't. I still think they should have got their shit together and replaced them by now, but I realize what I want (everyone involved to be competent) is not realistic.

            • by ceoyoyo ( 59147 )

              Sure, there are exclusion zones around airports too. All reasonable compromises the FAA could have implemented, except for the frequency thing, which the FCC should have been on top of.

              Some further research also suggests that only about half of airliners have radio altimeters that can't operate properly within their allocated band. Want to guess who makes them?

              So the cock up seems to be a joint effort between the FCC, FAA and a subset of equipment manufacturers who the FAA and FCC should have sent back to t

            • So... EU had no issues because they took more margin in frequency spacing and capped the max power lower?

              You can interpret that indeed as a harder technical challenge for the US carriers. Or you could say the more conservative approach of the EU was what needed to be done to keep flying without all the handle.

              Probably a side effect of being with so many different countries and having to take each other into account all the time.
            • by Agripa ( 139780 )

              From things I've read and put together:

              Europe is using 3.4 to 3.8 GHz
              US is using 3.7 to 3.98 GHz

              The radio altimeters use 4.2 to 4.4 GHz

              So the spacing in Europe is 400 MHz, which is fine, but in the US it's 220 MHz

              The spacing in the US is also zero for intermodulation products from the 5G transmitters which land directly in the radio altimeter band, which no filtering will remove.

          • by AmiMoJo ( 196126 )

            In aviation you will find that a lot of stuff is based on very old designs that have not been updated because they work and updating requires expensive certification. Being simple also makes them easier to maintain and cheaper.

            Radar altimeters are a great example. They use a very simple system where they sweep through a range of frequencies, and measure the difference between the frequency being transmitted and the one coming back. Electrically it's very easy to do without any complex filtering or expensive

            • by ceoyoyo ( 59147 )

              From the list of affected aircraft, it looks like the old ones are fine. MD-11's? No problem. 787s on the other hand....

              Essentially every radio device modulates its signal in some way, which involves occupying some bandwidth. The US radio altimeter allocation is 200 MHz wide. That's not narrow. Anyway, a radio device that stops functioning because of interference from outside its spectrum allocation is shite. Such a thing shouldn't have ever been approved.

              • >Anyway, a radio device that stops functioning because of interference from outside its spectrum allocation is shite. Such a thing shouldn't have ever been approved.

                Not sure that's right. The altimeter sounds to me more like a multi frequency radar than a device that locks onto a frequency and discards others.

            • Radar altimeters are a great example. They use a very simple system where they sweep through a range of frequencies, and measure the difference between the frequency being transmitted and the one coming back.

              That sounds like a description of how a (Doppler) radar relative speed detector works, not a distance measuring device.

              Unless ... no, even if you were looking for a resonance frequency picked out by your (rather leaky) cavity between the aircraft and the ground, that would give a signal intensity that

      • As does Australia. No problems with 5G here either (though with recent uptick in Covid maybe there is).
      • And probably far cheaper to replace than the cost of additional 5G tower sites to cover a narrower bandwidth of spectrum.

        Look, I love traveling internationally. I love flying. I have a shit ton of frequent flyer miles. But I do feel the aviation industry gets far too generous access to public resources.

        Right now, there is an airplane jet engine roaring overhead is literally the only sound I can hear. And I'm not living right next to an airport. In my city millions of people are subjected to constant jet

      • Never having considered whether or not to replace my phone with one that can do 5G ("Why?" being my first question), I don't have a detailed up-to-date knowledge of how far the 5G roll out has got, but I very much doubt that it has got much outside the largest cities. It's always the case with the latest "new, shiny".

        Actually, you've prompted me to check. Ohhh, the nearest coverage is only 25 miles away! That's really going to encourage me to replace my 5-yo phone with one costing 3-5 times as much.

        Probab

    • Because the US Government officials saw an opportunity to make more short term money (either directly though the sale itself or indirectly via lobbyists) by selling slightly more of the radio frequencies than was appropriate or safe to the mobile operators at the inconvenience of existing users of adjacent frequencies. The existing users just happened to be the aviation and satellite operators causing operational issues for the latter and safety issues for the former and neither of which can easily do anyt

    • by tlhIngan ( 30335 )

      The aviation industry was asking the FCC to delay the spectrum auction as well way back in 2020 when the auction was announced. It's been going the whole time.

      https://www.aopa.org/news-and-... [aopa.org]

      They proposed some mitigation strategies, including having industry help fund upgrading the entire fleet of aircraft with the newest radar altimeters which should be more immune to the interference. (Radar altimeter technology hasn't changed in decades, so it's not unusual to have planes flying around with older units

    • by gweihir ( 88907 )

      That is definitely a head scratcher.

      Not really. Several organizations and a lot of individuals screwed up massively in the US. At the same time, this works without a problem in the rest of the world. So much for "technological leadership".

    • We *DID* get it right. There's a whole 220MHz separation between the highest frequency the telcos bought and are licensed to operate on, and the lowest frequency the airlines bought and are licensed to operate on. That is a huge gap which is more than enough to prevent interference... IF both sides had bought decent, compliant, gear.

      The issue is that some crooked airline execs decided to pad their quarterlys by buying cheap, dodgy kit that illicitly operates outside its licensed spectrum... essentially sq

      • by Agripa ( 139780 )

        We *DID* get it right. There's a whole 220MHz separation between the highest frequency the telcos bought and are licensed to operate on, and the lowest frequency the airlines bought and are licensed to operate on. That is a huge gap which is more than enough to prevent interference... IF both sides had bought decent, compliant, gear.

        The gap is irrelevant when the intermodulation products from the transmitter are inside the channel to be protected.

  • Does the FCC require devices to have inbound filters to prevent interference? Or is expensive aviation equipment exempt from such simple requirements?
    • Aviation equipment isn't expensive (or at least, doesn't have to be), and much of it is VERY dated. It's sort of good from a backwards compatibility standpoint - you can buy a 60 year aircraft and the radios, transponders, etc generally will all still be perfectly useful. On the other hand, it can pose problems for things like this, but it is good from a waste standpoint - things in aviation don't get discarded or thrown away at nearly the same rate as general equipment. Usually its serviced, fixed, repa

      • Only really useful in the late stages of landing in very bad weather.

        But they are backed up by an ILS system, plus GPS and VOR/DME that tells them where they are.

        So very occasional outages caused by 5G interference should not be an issue. All instruments can fail occasionally.

        • P.S, I should have mentioned the normal altimeter, which when backed up by accurate air pressure readings from the airport are good to within about 100 feet.

          • by bws111 ( 1216812 )

            None of the systems you mentioned, including the 'normal altimeter', tell you the most important safety information, which is height above terrain.

            • None of the systems you mentioned, including the 'normal altimeter', tell you the most important safety information, which is height above terrain.

              They all do if you happen to have a map with you.

              Sure, a Radio Altimeter is a good thing to have in bad weather. But the plane is not going to fall out of the sky if, for example, it fails 0.001% of the time.

              • It may be a problem if that 0.001% happens usually when a plane is about to land, when it's flying low, with less safety margin, and the radio altimeter data starts getting corrupted since it's closer to the ground / 5G base stations.

                I don't think it will be too much of an issue when you have 10000 feet ground clearance. I think it will be an issue when your ground clearance is 100 feet.

              • by bws111 ( 1216812 )

                Nobody said the plane was 'going to fall out of the sky'. And I said SAFETY information. A map does not provide safety information. How many planes do you think are flying where somebody is actively looking at their position on a map? I'll tell you: zero.

                Safety information includes things like the plane calling out 'TERRAIN! PULL UP!'. This avoids little problems like 'controlled flight into terrain'.

                Finally, this claim that the radio altimeter is a 'bad weather' thing is pure bullshit. Pilots (of com

                • Finally, this claim that the radio altimeter is a 'bad weather' thing is pure bullshit. Pilots (of commercial aircraft in particular) rely on it on EVERY landing.

                  While I presume this is true, it doesn't have to be. Laser altimeters are cheap now and could reasonably be used in any fair weather condition — and some of them work in poor visibility conditions, too.

                  • That is a bit like a safety belt that works well except in a crash.

                    Nobody needs a radio altimeter in good weather. It is when you cannot see the ground.

                    But like I said, there are other systems for redundancy like ILS, GPS and a map.

            • I mean, that would be useful, but people have been flying without that for a long time. The "V" in VFR is "Visual" - look out of the window :).

              Modern airplanes were starting to look like a veritable buffet of little gauges though now there's a large trend on newer planes to go towards "Glass cockpits" with all electronic displays condensing info onto only a few screens (with less frequently used info hidden on pages you can access only if needed).

              That said, you can quite safely fly on quite few instruments

              • Who needs ASI's? The devils work.

                My old Tiger Moth had an open cockpit, you could feel the wind in your face, now the speed by the sting (and the angle of attack).

                The Wrights never had no ASI. The beginning of the end...

                • "you could feel the wind in your face"
                  And the hail, and engine oil

                  • It does not feel right to fly without the oil.

                    But at least it is a mineral oil. In the good old days they used castor oil which made the WW 1 pilots ill!

            • by ceoyoyo ( 59147 ) on Wednesday January 19, 2022 @10:17PM (#62190099)

              GPS does, and WAAS/GBAS are being designed to support category II/III landings.

              Radar altimeters might (with caveats) tell you how high you are above terrain, but they don't tell you how high the terrain a few seconds in front of you is. Nor about that smoke stack.

            • None of the systems you mentioned, including the 'normal altimeter', tell you the most important safety information, which is height above terrain.

              You can also look out of the window. That's a very good approximation.

              (Houses too big? Move the stick backwards...)

              • by bws111 ( 1216812 )

                Oh, right. I forgot that planes (especially commercial planes) only fly on cloudless days during the daytime.

          • And hence it is useful only for VFR landings.

        • by Entrope ( 68843 )

          "Backed up by [...] GPS and VOR/DME"? Do you have some special TSO-C129 equipment that is approved for approach operations with vertical guidance? ILS can provide a vertical fix like RALTs do, but not those other things.

          Yes, many US airports have WAAS approaches published. Not all.

        • Only really useful in the late stages of landing in very bad weather.

          Which is exactly the issue. If you can't trust your radar altimeter on board, CAT III insturmental landings are basically impossible.

      • Re:inbound filter? (Score:4, Informative)

        by Falconhell ( 1289630 ) on Wednesday January 19, 2022 @11:55PM (#62190279) Journal

        As a pilot owner, Im shocked at the claim the aviation equipment does not have to be expensive, every single item used in my aircraft has to have an associated certificate for airworthiness, and the cost is at least 2X what one would expect to pay for a consumer item of similar functionality. Even just servicing an ASI costs $400au.

        • Even water bottles certified to be taken into an passenger aircraft (and bought inside the airport) are twice (or more) as expensive as the apparently similar (but not airworthy) thing bought from a supermarket.

        • As a pilot owner, Im shocked at the claim the aviation equipment does not have to be expensive, every single item used in my aircraft has to have an associated certificate for airworthiness.

          Also a complete paper trail of when/where it was purchased, where/how it was stored, etc.

    • by butlerm ( 3112 )

      The FCC isn't really in the business of stopping anyone from making defective receivers. The FAA on the other hand ought to care about that very much, and apparently they have been missing in action on this subject.

      • I think the FAA prefers to play it "Why fix when it's not broken", After all those radio altimeters have been in use for decades and working perfectly fine.

        It's just that the environmental EM status quo has changed. I understand new equipment takes years and cost big money to be certified for aircraft use. With that being the case, giving FAA 2,3 years notice of the EM changes may not be enough.

    • by bws111 ( 1216812 )

      No equipment is required to have such filters.

    • The antenna and amplification circuitry do a good enough job of preventing interferences from other frequencies (or it seems they did a good enough job until now).
      If more filtering is required, then you increase complexity by adding filters (additional stages).
      You don't want more complexity in aircraft parts.

      Also, the issue isn't really the fact that the radio altimeter might not function. The risk is that other systems of the aircraft tied to a malfunction altimeter (or Angle of Attack sensor, as in the 73

    • by Agripa ( 139780 )

      Does the FCC require devices to have inbound filters to prevent interference? Or is expensive aviation equipment exempt from such simple requirements?

      Sometimes, but in general no. They may have a requirement that the equipment accept harmful interference, meaning that there can be no claim against an interfering source.

  • by Futurepower(R) ( 558542 ) on Wednesday January 19, 2022 @08:54PM (#62189913) Homepage
    The main issue: Aircraft radar altimeters have receivers that don't block other wavelengths sufficiently.

    This 5G issue is an example of the extremely poor quality of the news. The news lacks depth. The news reporters usually don't try to understand the underlying issues.

    And, in general, the complexity of new technology is beyond the understanding of people who were born before that technology was created, and who haven't taught themselves new technology.
    • by Anonymous Coward on Wednesday January 19, 2022 @09:07PM (#62189949)

      The main issue: Aircraft radar altimeters have receivers that don't block other wavelengths sufficiently.

      Aviation tech moves at a glacial pace. People generally have no idea of just how primitive, obsolete, backwards and badly designed a lot of Aviation tech really is. Aircraft fly around with all kinds of software bugs that cause completely unnecessary problems with ground systems. Bugs that are fixed through updates in the commercial software world within days take years upon years to be installed in aircraft fleets. the result is that developers in ATC centres have to code around these bugs in the aircraft software on an aircraft type and variant basis and try to detect whether some variant of a Boeing or Airbus has spastic software installed simply because it takes forever to certify software updates. Worse yet, when the updates are finally safety certified, the airlines put off installing these fixes for years and years on end because -> profits.

    • by butlerm ( 3112 )

      Yes. The bottom line is that too many radar altimeters are defective, are effectively squatting on frequency bands assigned for other uses, and will need to be replaced. This should have been apparent from the beginning.

    • Avionics is startlingly expensive. Its not even possible for the 5G companies to pay to upgrade aircraft because they may move around, not necessarily even staying in the US. There are a lot of 20 year old aircraft in service and some that are much older than that.
    • I simply don't understand - that's a *huge* amount of gap between services. Do these radar altimeters not use band pass filters at all??

      • Of course they do but I think you're overestimating the effectiveness of analog bandpass filters.

        The difference between 4.0 and 4.2 is very small.

    • by bws111 ( 1216812 )

      What is really amazing is that, with 5G, for the first time in history we have perfect transmitters that emit zero energy outside their band. Truly amazing. Oh, wait, that's not true? You mean the transmitters CAN (and DO) have spurious emissions including in the band that the altimeters use? But yeah, it is entirely the fault of the receivers. Uh-huh.

      • I agree here. Good RF filters have been around for more than 50 years. The tech is actually not that expensive either. Also pretty sure the receivers were tested for EMI effects. That is a pretty standard test.
        Almost victim blaming here. But sure it is more complicated. Looks like they played a game of chicken and collided painfully.
  • One side says that there are potential disruptions to the instruments and will be unable to operate under certain conditions or locations, but the other says it is based on unfounded fears. Doesnâ(TM)t seem that difficult to actually test each hypothesis then make a policy accordingly. We figured out that old pacemakers couldnâ(TM)t be exposed to old microwaves, so how would this be any different. I do not mean to say it would be easy but no means impractical
  • News articles (many of which which repeatedly confuse "5G" with "completely optional use of C-band frequencies for 5G by Verizon and AT&T") have solely indicated Boeing equipment, particularly the 777.

    This shouldn't be blamed on "5G" rather than crappy equipment supplied via Boeing, if it can't properly filter out-of-band interference. Even more damning, a 5G signal should look like white noise, not in any way resembling the continuously modulated signals used in radar altimeters as described by Boeing.

  • by TheNameOfNick ( 7286618 ) on Thursday January 20, 2022 @02:20AM (#62190533)

    That's more bandwidth (400 MHz) and thus faster than 3.7 to 3.98 GHz (280 Mhz). The association of higher frequencies with faster transfers comes from the availability of more bandwidth at higher frequencies, but the actually allocated and used bandwidth is what matters.

    • by xalqor ( 6762950 )

      Interesting, because lots of articles are parroting whatever source said that Europe's band is slower, but they don't give any numbers.

      I'd be interested to know what the actual differences are, and why we didn't just allocate a lower end of the band here to avoid an issue while aircraft equipment is upgraded.

      Telecoms know how to deploy equipment that is capable of a range like 3.4 to 4.0 GHz but using software switches limit it to using just a part of that, say 3.4 - 3.8 like Europe and then later add 3.8 -

      • by Luckyo ( 1726890 )

        Basic physics. The higher the frequency, the more data signal can carry.

        • That's a myth. The frequency is not a parameter of the channel capacity. The higher the bandwidth, the more data a signal can carry (assuming same SNR). [wikipedia.org]

          • by Luckyo ( 1726890 )

            This is the standard "you're correct in principle, but technically explanation is different" kind of an argument.

        • Basic physics. The higher the frequency, the more data signal can carry.

          Sure, but the difference between 3.8 and 4.0 is a negligible gain.

          • nb. The big speedup of 5G comes from the range being about 50 times less than 4G, not from a change in frequency.

            • by Luckyo ( 1726890 )

              It's also fair to note that "5G" isn't a single thing in the first place. The biggest "it's gonna be super fast" claims come from millimetre wave, which is absolutely useless in terms of penetration capability.

              For all bits and purposes, "5G" is a marketing buzzword for "generational update for most features of Long Term Evolution technologies which are also now allowed to operate on additional frequencies"

          • by Luckyo ( 1726890 )

            Absolutely, but the problem is frequency distribution is very rigidly defined in each nation, as spectrum suitable for radio transmissions of any meaningful range, penetrating capability and that can carry a reasonable amount of data at reasonable transmission power and antenna size is very, very constrained.

            Which leads to constant tug of war between various users of nearby spectrum bands, resulting in different outcomes for different nations.

        • On my planet, 1 MHz bandwidth is 1 Mhz bandwidth. The frequency is utterly irrelevant, Yours must have different laws of physics.

          • by HiThere ( 15173 )

            I think you are drawing improper conclusions from a single tautology. The frequency is definitely *not* irrelevant, but in multiple different ways. (E.g., some frequencies are absorbed by water vapor.) But higher frequencies yield more bits/sec in the absence of noise, etc. I'm not quite sure how beat frequencies might enter into this, but I think it would be a mistake to assume that they don't.

            Etc.

            I don't have a strong opinion as to which side is correct, but I have a strong opinion that your argument

          • by Luckyo ( 1726890 )

            Consider having someone else reading the statement to you and explaining it. Because for all the kneejerk "you're wrong", the only thing that is wrong is your reading comprehension.

            • You of all people to criticise my reading comprehension? You posted a blatantly obvious falsehood, suck it up princess, nobody around here believes a word you say. Explain how 1mhz bandwidth is not 1 mhz bandwidth or shut the fuck up.

  • ... I can't even good signals with 5G like at my rural nest area. I can sometimes with 1X to 4G LTE. :(

  • 3.8GHz is *not* close to 4.2GHz. 400MHz in the microwave spectrum is a lot of space. You might get a few MHz of frequency shift from doppler effects, but not enough to shift it nearly half a GHz. Even accounting for lousy bandpass filters, the energy leaked that high up would be almost nothing.

    • I'm not persuaded without showing me the actual filters used, if any, and info about how the radars work and power levels involved.

      For example, if the radars use phase information, simple filters could mess that up. If the radar return is almost down in the noise, splatter from 5G could make it unusable, or a 100dB reduction with the filter might not be enough to counter the 140dB ratio of 5G transmission signal to radar return in band.

      On the other hand, it could just be about money. Maybe all the radar s

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