QuadRF can spot drones and see WiFi through my wall

(jeffgeerling.com)

705 points | by speckx 1 day ago

33 comments

  • mrtnmcc 22 hours ago
    QuadRF creator here. Happy to answer questions!

    We have a quick demo video as well: https://m.youtube.com/watch?v=QvniJk3uNyA

    Along with a deeper dive video: https://m.youtube.com/watch?v=zdJ9Tbm8ALg

    We didn't give Jeff great direction on camera alignment calibration or setting the radio gain but he seemed to mostly figure it out. We're improving the UI based on his suggestions (it's open source so you can customize it too)

    The RF augmented reality is just one of many applications of this brand new 4x4 MIMO software-defined radio built from the ground up. The AR uses a web app to stream RF points that your phone/laptop browser then live-merges with your local camera in the browser. I've been obsessed with low latency and high frame rate to make it a truly AR experience. More technical details at https://QuadRF.com/

    • fleventynine 1 minute ago
      Is the RTL for the FPGA available to be tinkered with?
    • mallets 21 hours ago
      The really intriguing part is the "Custom ADC" here, seems like some kind of 1-bit ΣΔ oversampling ADC (704 MSPS?). Single differential transistor, and captured by FPGAs LVDS RX.

      Neat way to reduce cost and pin-count? But I think the typical FPGA clock tree has poor jitter performance. Not using the internal PLL(s) might help with spurs but the clock buffers are unavoidable.

      The documentation mentions it's likely further degraded by noise from switching regulators. Oh the joys of hunting RF noise sources.

      • mrtnmcc 21 hours ago
        We've got the switching noise nailed down. Fortunately the LVDS jitter doesn't affect the sigma delta too badly because that impacts proportional to baseband frequency which is largely filtered out by the decimation filters beyond 40 MHz.. With a total of eight ADCs per QuadRF, you can see we are getting huge savings by being custom! While the per-ADC ENOB is 7-8 bits, another nice thing about phased arrays is that the quantization/ADC noise averages away between elements, so with 8 ADCs in QuadRF we pick up another 1.5 bit giving 8.5-9.5 ENOB, which is frankly better than most SDRs. For the bigger phased arrays that improves further quickly.
        • tverbeure 16 hours ago
          That’s so cool!

          Reading these comments first, I assumed you were using a variant of Spartan 6 LVDS TDC trick which allows up to 200 Msps rates. (https://sps.ewi.tudelft.nl/pubs/Homulle15fpga.pdf)

          But this is a really interesting use case as well, and something that could be used for a 16 channel logic analyzer with analog recording support like the Saleae Logic 16 Pro, but without expensive ADC from Analog Devices.

        • mallets 20 hours ago
          Yeah, jitter doesn't matter too much at low frequency IF. I/Q calibration is more likely to be the bottleneck. That and close-in spurs from the fractional PLLs.

          I have very little experience with MIMO / phased-arrays, this application likely doesn't need ultra high SFDR.

          • mrtnmcc 20 hours ago
            Yes, I actually designed the I/Q calibration for many of Analog Device's transceivers (AD93x), and indeed it is a fun problem. If you're interested in what was done for QuadRF, you can read: https://QuadRF.com/cals/txqec.html (Warning: Math!)
            • mallets 20 hours ago
              Oh wow, the AD936x series was impressive for its I/Q calibration. Still is I guess, because there's been no compelling alternative even a decade later.

              As I mostly deal with single channel applications, I get to use double superhet and avoid runtime calibration. Not an option here, Zero-IF has too much in the Pros column for multichannel.

        • andrewstuart2 20 hours ago
          I like to think of myself as pretty well-versed when it comes to hardware and software and even some RF. But this conversation has me hitting search a lot, lol. It's fascinating reading experts talk about a domain I have less experience in.
          • quietfox 11 hours ago
            Glad I’m not the only one. I’ve been tinkering with sensors, robotics, sdr and similar stuff for 20 years now, but this conversation was way over my head.
          • geerlingguy 14 hours ago
            Heh, welcome to RF; there are more rabbit holes to go down in domain specialty than I think there are grains of sand on a beach. I've gone down like... two. And I'm pretty overwhelmed.

            I think that's why a lot of EEs and developers wind up getting an amateur radio license, or at least running a few fun RF projects.

      • Eisenstein 3 hours ago
        For those confused about what this means, my understanding is this: when quantizing a wave you can use sampling rate to derive missing bits, so using even one bit can work if you do it fast enough, but jitter is a problem because it means the clock doesn't cleanly sync and it doesn't help non-quantization noise like those generated from switching supplies. Corrections welcome.
    • tverbeure 16 hours ago
      Are you concerned about the issue that KrakenRF ran into with their passive radar demo project violating ITAR rules, or is that something that can easily be avoided by just not doing that specific kind of application?
      • mrtnmcc 16 hours ago
        We don't support passive or active radar beyond basic near-field sensing. We also proactively submitted a detailed report to the State Department earlier this year showing we don't exceed any of the USML criteria for ITAR controls. Separately we have an ECCN determination under EAR. This does rule us out from exporting to a few places (Cuba, Iran, Russia, North Korea, Syria, and some regions of Ukraine). But we are able to ship to most countries.
        • Ylpertnodi 3 hours ago
          > does rule out..... some regions of Ukraine

          The occupied ones, presumably. But why is Ukraine broken up? Surely, you will be dealing with a government, and they'll know what to do/ where there current borders are.

    • radicality 18 hours ago
      Product looks cool, not sure what I’ll use it for but did just purchase it on crowdsupply :) How did you settle on that frequency range btw? It’s 4.9 - 6ghz, so it will visualize the higher freq WiFi, but I guess it will not work for the 2.4ghz WiFi, or Bluetooth which is also around that frequency? And I don’t know tooo much about RF, but would including support for that range also, have necessitated much more complex/expensive hardware/antennas ?
      • mrtnmcc 18 hours ago
        Thanks for the support! C-band is really the sweet spot in terms of affordability and compact size (the scale of the antennas and array spacing increases proportional to the wavelength). Maybe at some point we'll develop something at 2.4, but more devices are moving into 5GHz these days.
        • geokon 7 hours ago
          My feel would be that 2.4 has the advantage of being much longer range and there are plenty of sources for 2.4 - if you wanted to look at back-scatter and not just sources of emission. The primary demo of this piece of equipment is looking at radiation sources, but as you guys show there are plenty of other possible applications. I feel like since 2.4Ghz stuff has been around for ages.. the stuff should be much cheaper? Just a guess though :) Would be curious to know what the reality looks like

          And cool to see you guys are from Santa Barbara. Lots of relevant talent there :)

        • bigiain 15 hours ago
          Is there a decent rule of thumb about how this style of antenna scales with frequency?

          I'd kinda like something like this that could do 2.4GHz, 850-950MHz and even down as low as 400MHz.

          Would by uneducated guess that 2.4GHz antennas would be twice the size, 900MHz about 6 times the size, and 400MHz about 10 times the size?

        • geerlingguy 14 hours ago
          If you ever want to go into the KHz range, you could build a ship-scale platform to carry the antennas :D
      • victorhooi 8 hours ago
        This does look cool - but I suspect most of the stuff I'd use it with is 2.4 Ghz (i.e. ISM band) - IOT devices, wireless keyboard/mouse, wireless cameras, drones etc

        Is a 2.4Ghz version mostly about the larger physical size? Or are there other technical limitations to overcome as well?

        And cost wise - would it be 2x this version ($499) - or higher?

    • ZeroCool2u 5 hours ago
      Really cool! Just ordered one. Do you guys have an active lab in SB?
    • antman 5 hours ago
      What distance of drone detection would this theoretically have?
      • yonatan8070 4 hours ago
        I assume it depends mostly on what frequency and TX power the drone in question is using, as well as the RF environment you're operating in and the noise floor of the SDR
    • developer5502 20 hours ago
      Super cool project I've been following for a while. Are you pivoting away from Earth-Moon-Earth radio astronomy? I first bookmarked this project when your site was hosted at https://open.space
    • stagger87 14 hours ago
      Nice project, congrats!

      Rx/TX isolation?

      Typical image rejection (dB)?

      Does it support hardware level timestamping to align tx and rx samples through soapy?

    • digdugdirk 21 hours ago
      Super cool! I noticed you had a blurb about it being used for mesh networks? Could you please go into more details/provide links to resources to learn more about that?
      • mrtnmcc 21 hours ago
        Absolutely :) we're working on documenting an awesome Meshtastic demo. Should have a writeup next week to add to the Crowd Supply updates page. Also Roy on our team will be demoing it (along with the RF augmented reality) at Teardown 2026 in Portland if you're in that neck of the woods.
    • RyJones 18 hours ago
      if I put two of these far-ish apart, can I get better 3d/4d data?
      • butvacuum 18 hours ago
        of course? not working directly together maybe, but put them at right angles and you get depth without relying on signal amplitude analysis.

        did I misunderstand the question?

    • stackedinserter 21 hours ago
      That is super cool, man.

      Do you have a demo for that 240 elements assembly?

      • mrtnmcc 21 hours ago
        We should have a video about MoonRF once we finish the QuadRF mass production, look for it ~ early September! Will be legendary! You can read on how the multi-tile synchronization and calibration works here: https://QuadRF.com/docs/#phased-arrays
    • tokai 21 hours ago
      Cool project! What is the max detection range?
      • mrtnmcc 21 hours ago
        It really depends on the transmitter strength, but if you set the Rx gain high on the QuadRF, we get within 2dB of the thermal noise detection limit.. so about as good as is possible with a receiver this size. I believe a few km is easily doable with a consumer drone but we haven't focused on it.
    • momoschili 18 hours ago
      can this sense mice?
  • noduerme 21 hours ago
    Funny, in the "imagine what governments are capable of" vein, I just read this[0] a few minutes ago before coming over to HN to find this post trending.

    [0] https://www.prnewswire.com/news-releases/the-future-takes-fl...

    • quietsignal 8 hours ago
      Yep, been in the works for a while. Ericsson, Nokia Bell Labs and Qualcomm have been publishing press releases regarding ISAC and telecom providers also sees new potential market of S2aaS, especially if there is a push towards autonomous robots, vehicles that need the data for mapping & training data.

      Future networks using millimeter-wave (mmWave) and sub-terahertz (THz) frequencies may collect or infer detailed information about people, devices, bystanders, passive objects, and environments in a sixth-generation (6G) deployment area. It may detect breathing and heart rate of biological bodies.

      https://eprint.iacr.org/2026/1069

      • greggsy 3 hours ago
        Seems like a contender for the tricorder prize that was announced ten or so years ago might not be too far off.
    • jeremyjh 6 hours ago
      I have a feeling they are not planning to sell it to government agencies for $500. Our tax dollars will go a lot less far I expect.
    • cucumber3732842 5 hours ago
      Remember how for years starting in the late teens and fizzling out over covid university paper after university paper about "this is so cool look how we can see through walls by essentially using 5g and wifi as ambient light" and they steadily marched up the chain from simple room layouts to furniture layouts, occupant detection, occupant movement and then started being dressed up with the usual dogwhistle language about "emergency services" that people who are building tech to help infantry/police entry teams use to make it seem more noble and then after that it all just kinda stopped being publicized with any sort of regularity?

      I'm not a conspiracy theorist but I'd say all the people working on that shit got hired.

      Sorry not sorry for the run on sentence.

      • greggsy 3 hours ago
        I stopped reading halfway through in frustration and then saw your apology.

        You only need to apologise to yourself really.

    • Aachen 19 hours ago
      [dead]
  • piinbinary 1 day ago
    One day I want to build something like this, except for sound. It would be great to get a heading and distance for where a sound is coming from.

    This could be both for small scale things (e.g. which part of this is squeaking?) or large scale (e.g. is that booming noise coming from the construction a few blocks away?)

    • dfc 1 day ago
      Fluke has made an acoustic imager for a while now. It is used for detecting leaks:

      https://www.fluke.com/en-us/product/industrial-imaging/fluke...

      • geerlingguy 23 hours ago
        There are a few knockoff options too, which are not quite as nicely calibrated, but get the job done for much less than Fluke-level prices. Like the FOTRIC TD2.

        I think a few people have made homebrew versions too, like this one mentioned on HN: https://news.ycombinator.com/item?id=45137584

        • m463 22 hours ago
          interesting on amazon:

          fluke $25k

          flir $10k

          td2 $1k

          These are the kinds of things you look at and think - maybe I DO need night-vision, or a soldering iron with a cpu, or a thermal imager, or a steerable endoscope or now an acoustic imager....

          • thomashabets2 21 hours ago
            If you own your home I'd say you need a thermal imager. Just the ability to diagnose clogged pipes is priceless.

            https://x.com/ThermoInstagram/status/909356506059026432

            Also for checking if microwaved food is ready.

            • greggsy 3 hours ago
              +1 to thermal imager. I use mine to locate hot wires, heating and cooling gaps in the roof and around windows, car maintenance, the pizza oven, and its even sensitive enough to ‘see’ studs in the wall.

              Priceless on one occasion for finding leaks in the ceiling, which are notoriously hard to pinpoint.

            • left-struck 4 hours ago
              Can also be used for looking at heat leaking into or out of your house via conduction, which can help you determine where there might be more insulation needed, or maybe a particular wall needs more shade in summer.
      • its_down_again 23 hours ago
        Has anyone tried acoustic imaging for water leaks inside walls? I live in a multi-floor 1900s Victorian. A leak can affect several units, and tracing the source can mean opening walls or floors in multiple places, and coordinating access has been getting harder with less WFH.

        Could one of these tools help map water pipe routes and trace a leak, or are they only going to be useful for air and gas leaks?

        • iamniels 22 hours ago
          For a water leak a sound imaging device is not going to help you.

          You should definitely try a thermal camera. Any moisture will create small temperature differences which are easily picked up by a thermal camera.

          • _trampeltier 20 hours ago
            Flir has some thermal cameras with 'special moisture' modes. In the end, wet areas are just colder.
          • cluckindan 20 hours ago
            Moisture camera. Now there is an idea.
            • fc417fc802 19 hours ago
              Initially I scoffed, but then I recalled that certain RF bands are disproportionately absorbed by water and this is used for certain sorts of atmospheric imaging by satellites. So you'd need a moisture "light" and an RF camera. Other than being cost prohibitive it sounds like an awesome toy.
              • archi42 18 hours ago
                It still works pretty well in the IR band. I know that one from experience due to storm damage to our roof ;-)

                A leak only turns invisible if the water has the exact same temperature as the wall and there is no meaningful evaporation happening (as that cools the affected area).

                Of course don't let me stop you from actively probing your all using RF. Though also there you might have good chances with IR, since wet $stuff should behave differently than dry $stuff ;-)

        • KaiserPro 10 hours ago
          WArning I am not an expert

          There is a man call leak detective, who hunts for leaks in the UK. one tool he has is shutting off the water and filling the pipes with gas and using either sound or gas detector to pin down leaks.

          A lot of the time he just listens though.

          • greggsy 3 hours ago
            Up until the 90’s airline in flight entertainment use stethoscope style earphones. My dad used to steal them for his workshop as a way to hear for leaks in various parts.

            Our ears and eyes are very high bandwidth sensors.

    • mrtnmcc 22 hours ago
      Realtime sound visualization was actually a project I did 20 years ago as a freshman and that (probably?) inspired me to build this AR app in QuadRF.

      On balance, I would say this RF version was 200x harder.

    • flutas 1 day ago
      Not sure if you've heard of them, but they're starting to come to market with this exact thing aside from distance detection and more on the "which part is squeaking" side.

      https://www.youtube.com/watch?v=l8-5lSVCR2w

    • cenamus 23 hours ago
      I think you'll be very interested in this awesome project

      https://ribbonfarm.com/2016/06/29/the-daredevil-camera/

    • hinkley 23 hours ago
      The army has one of these for sniper triangulation, and Boeing made a civilian version for optimizing sound dampening on the 787. I don’t know if they kept doing that on subsequent planes but I would expect so given how enthusiastic they were about being able to apply the weight budget to greater effect.

      You need really high clock rate sensing to differentiate the arrival time for sound from microphone arrays where they are all less than a nanosecond separated from each other.

      • azalemeth 22 hours ago
        A nanosecond? The speed of sound at sea level in dry air is approximately 330m/s. So at say 3.3 kHz, the rough logarithmic middle of the audible spectrum, K=2π/lambda is 2π/0.1 m=20 π rad/m. A phase difference from a source difference k. ∆r would therefore likely be far more easily resolved than that for many physical ∆rs then, no?
        • KaiserPro 10 hours ago
          MAybe the high clock rate it to allow it to read the output of the ADCs serially?
      • a_paddy 22 hours ago
        Given that it was McDonnell Douglas, sorry Boeing, they probably cut it.
    • KaiserPro 10 hours ago
      respeaker and https://github.com/introlab/odas might be a good starting point without having to make hardware.

      Making the hardware is fairly achievable without having to do fancy things. but if you want >8 channels you'll need to make some custom interface hardware.

    • Torkel 23 hours ago
      There are products in this space, eg https://www.crysound.com/

      Very cool stuff, can be used for drone detection at up to 200m. Accuracy is not super good, unless you make mic spacing a bit large.

    • wkjagt 21 hours ago
      Steve Mould did a cool video on this: https://m.youtube.com/watch?v=QtMTvsi-4Hw
    • simplyalec 23 hours ago
    • tzs 23 hours ago
      Like in this Steve Mould video, "Acoustic cameras can SEE sound" [1]?

      [1] https://www.youtube.com/watch?v=QtMTvsi-4Hw

    • lowbloodsugar 20 hours ago
      I want that but for smell.
      • amelius 3 hours ago
        Nobody can do that. Use dogs.
      • NopIdoN 20 hours ago
        You could try training wasps.
    • tenuousemphasis 17 hours ago
      You should visit Orfield Labs in Minnesota.
    • wyager 22 hours ago
      There's a company in Austin that uses sound for drone localization, although I forget the name
    • andrehacker 23 hours ago
      [dead]
    • piinbinary 22 hours ago
      ChatGPT tells me that it would take a very large array to detect distance with any accuracy
  • mlfreeman 1 day ago
    The visualizer reminds me of my thermal camera.

    I have heard claims of devices (mostly TVs) supposedly coming with secret 5G cell uplinks built in [never heard a specific model mentioned though].

    If there were more variants covering more commonly-used RF bands, people could walk around and literally check for once.

    (incidentally i'm sure three letter agencies have had this sort of tech in their bug-detecting toolkit for a LONG time)

    • mikeweiss 1 day ago
      Whos paying the telcos for those 5G connections and also has the FCC been degraded so much that they would allow for undeclared radios in consumer products?
      • FuriouslyAdrift 1 day ago
        More likely 4G LTE MTM (https://www.verizon.com/business/products/internet-of-things...). It's dirt cheap and paid for by the vendor of the device it is in (usually) in the name of 'telemetry'.

        I've seen so many random industrial devices and parts come into our plant that have their own cellular it's wild.

        • mikeweiss 23 hours ago
          You really think these are in TVs going unoticed and someone is paying for each radio?
          • FuriouslyAdrift 23 hours ago
            I have $100 devices in industrial devices that have them. In bulk, they cost next to nothing (not quite as cheap as RFID but getting there).
            • tredre3 22 hours ago
              But in your scenario they are an integral and necessary part of the device, so it's costed in.

              In a television it's an added cost and it's unclear if serving ads really can offset that extra $25-100 of hardware (and included data) you ship on a $200-1000 television.

              It's also unclear to me if the low data packages they come with would be enough to serve meaningful ads to begin with. Those devices usually come with a fixed plan of 100MB/month for 5yrs (or along those lines). Modern smart tv ads are very often video or at least hi res images.

              • semi-extrinsic 20 hours ago
                > In a television it's an added cost and it's unclear if serving ads really can offset that extra $25-100 of hardware (and included data) you ship on a $200-1000 television.

                Amazon seems to have done the math and found that it makes sense to give a $20 discount on a $180 device if it lets them display very unobtrusive ads on the lockscreen. So I don't think you are correct.

              • fc417fc802 19 hours ago
                Why are you assuming the primary motivator is to serve ads? Smart TVs were already caught running content ID against the contents of the screen and phoning that data home. "Routing at the edge" is the euphemism for the logical extension of that.

                > extra $25-100

                Your estimated costs are off by at least one order of magnitude, probably two.

                Of course none of this makes much sense in a world where smart TVs have ubiquitous wifi, most consumers have one, most consumers run the stock OS, and most consumers connect it to the public internet. It would be entirely viable if not for that status quo.

      • jcims 23 hours ago
        My truck (Ford) has some cell connectivity that I’ve never paid for. At scale it’s likely very inexpensive.
        • drnick1 19 hours ago
          Unfortunately, it's used to spy on you, and insurance companies are known to buy the data to profile customers or prospective customers. The good thing about Fords is that the cell modem often has its own fuse.
      • throwaway85825 1 day ago
        Secret 5G is not as common because there is a huge incentive to resell the free service. Maybe with eSIM it will be harder. Kindles uses to have a free data plan SIM.
        • thomashabets2 21 hours ago
          > huge incentive to resell the free service

          Not all mobile data APNs go to the Internet. You can't resell an IP service that lands on an RFC1918 network with exactly one IP:port available; the API endpoint.

          Not saying I've seen this in devices, but I have built and run mobile data networks with private APNs.

      • bluGill 23 hours ago
        Telcos sell off peak only 5g for cheap. Only to large companies that are willing to work with the limits. Often it is low bandwidth.
        • ireflect 14 hours ago
          This is interesting. Do you have any specific examples?
      • ethin 1 day ago
        The FCC is literally powerless nowadays for all intents and purposes. They've abrogated so much of their authority to the states now that they might as well be eliminated. What little authority that remains with it is bought and paid for to the point that I'm sure you could get anything "approved" if you wanted.
      • mschuster91 1 day ago
        > has the FCC been degraded so much that they would allow for undeclared radios in consumer products?

        Well... most TVs already have a WiFi/BT chipset for stuff like advertisements or, especially with Apple, high-bandwidth video streaming. There is already a radio module present, but (IIRC) you don't have to disclose what exactly that module is capable of.

        • sroussey 23 hours ago
          You definitely are required to disclose what frequencies are used and at what power.
        • mikeweiss 23 hours ago
          Uhh yes you absolutely do need to disclose exactly what each is capable of. Each radio must itself be approved by the FCC and documented
    • MomsAVoxell 10 hours ago
      It always impresses me that technology ideas once exposed in the nefarious background of the Snowden revelations, has now become mainstream, almost passé among the technocratie, but then I remember that there is a very dominant event horizon where all technology is weaponized/de-weaponized according to the intentions of its users..

      It's going to been pretty wild to see QuadRF being applied for things. I can only imagine there are weapons-technologists who will bolt this onto hunter/killer drones at some point. A lynchpin technology for the inevitable drone wars.

    • drnick1 19 hours ago
      > I have heard claims of devices (mostly TVs) supposedly coming with secret 5G cell uplinks built

      This is occasionally mentioned on HN, but I have not yet seen a specific instance of this. Please share if you know something about secret 5G cell modems used to spy on people.

  • RobotToaster 1 day ago
    Build this into smart glasses and it would be fascinating.
  • fierycatnet 23 hours ago
    I just kinda skimmed through it, so it detects drones in sky? Am I understanding this correctly? That might have some defense application considering what's going on in Eastern Europe right now.
    • TrackerFF 23 hours ago
      It detects drones which send out RF signals at the same frequency band. Most drones used in Ukraine are tethered with thin optical wire exactly because one of the first anti-drone measures was to simply jam them at the frequencies the operators used.

      There are some more advanced anti-drone measures at work: Like blasting them with directed high-energy microwaves to destroy the circuits.

      • euroderf 23 hours ago
        Frequency hopping is not THAT difficult.
        • squarefoot 22 hours ago
          Brute force wide band jamming would be easy too and would make hopping ineffective. Unless drones use self tuning antennas to overcome losses, they can't hop too far away from the antenna resonance frequency, which makes jammers job easier.
          • varjag 22 hours ago
            Jamming broadband is a lot more energy expense than frequency hopping. Orders of magnitude.
            • thomashabets2 21 hours ago
              But the jammer can be plugged in to the grid or a diesel generator. Being on the ground without flight requirements grants access to such resources.
              • varjag 21 hours ago
                Yes. That makes it fat, expensive and vulnerable target. There are videos of them being blown up regularly.
                • thomashabets2 21 hours ago
                  Which is a completely unrelated to what we were talking about.
                  • varjag 21 hours ago
                    How come? It plainly negates the "easy" part. It's not easy at all, you need to scale your signal path to the magnitude of power. I.e. the expensive part.
              • fer 21 hours ago
                But such a jammer is expensive and a magnet for HARMs that only need that RF signature as guidance.
                • thomashabets2 21 hours ago
                  Which is a completely unrelated to what we were talking about.
                  • fer 19 hours ago
                    How is SEAD unrelated to drone warfare? Unless you believe anti radiation missiles/drones can't target jammers.
                    • thomashabets2 7 hours ago
                      The topic was energy expense of wideband vs narrowband jamming.

                      Both can be used for targeting.

            • squarefoot 7 hours ago
              True, but they can't use directional antennas nor lots of power, and once they're far enough from the transmitter inverse square law does the rest. Ground stations always have an advantage because of higher gain antennas and more power available.
            • michaelt 21 hours ago
              I mean, drones trailing fiber optic cables are widely documented https://en.wikipedia.org/wiki/Fiber_optic_drone

              So I’m pretty sure avoiding jamming by a military adversary is not trivial, even with frequency hopping and suchlike.

              • varjag 21 hours ago
                FPV drones in the Russian war are generally pretty dumb devices, there's usually no frequency hopping involved to begin with. They have a lot more in common with baby monitors than with modern military comms.
                • lazide 21 hours ago
                  Lol, even baseline DJI drone chipsets from a decade ago do frequency hopping. Many baby monitors probably do too.
                  • varjag 20 hours ago
                    You can literally see the analog video links in countless thousands of published recordings. Nobody really does the hopping with analog video.
                    • lazide 16 hours ago
                      From early in the war, sure.
      • idiotsecant 23 hours ago
        Most drones aren't optical because optical drones sacrifice payload and distance, they're only used when broad spectrum jamming is expected. Jamming of that type is expensive and heavy enough that infantry probably won't be jamming, or light vehicles, or a lot of infrastructure.
        • creaturemachine 22 hours ago
          Most light vehicles are jamming, and infantry at least have detection capability, which is why fibre is now the standard for close range.
    • shakow 23 hours ago
      > That might have some defense application considering what's going on in Eastern Europe right now.

      This is a bog-standard phased-array RDF calibrated for WiFi freqs; that stuff is already in every single defense show.

      Also, that's why there's jamming everywhere (to blind that kind of things) and why many UAVs are now tethered to optical fibers instead of being RF-controlled.

      • IshKebab 22 hours ago
        Yeah I think it is at every defense show, but that doesn't mean it makes it to the front lines. Defense show = super expensive. This is cheap.
        • thomashabets2 21 hours ago
          Homing in on sources of electromagnetic transmissions has been a thing since at least the BV246 in 1943.

          The first phased array systems date back to 1905.

          We have had some time to productionize this.

          Hell, the "PA" in "PATRIOT missile" stands for "Phased Array".

          • IshKebab 10 hours ago
            I'm not saying it's new technology. The patriot missile costs $4m each. None of the drones Ukraine is using have this tech.

            The new thing is that it's available for purchase for a reasonable price.

            • shakow 8 hours ago
              Why would they put phased arrays on UAVs? They are typically using beam-forming antennas + cheap gimbals for the same purpose.

              Phased arrays are nice when you want to scan a large angular surface very fast; when it comes down to optimizing RF radiation toward your ground station, a gimbal is cheaper, simpler, and works fine.

            • thomashabets2 7 hours ago
              While it doesn't produce an image, not having 2D data, KrakenSDR has some cool direction finding too.
        • shakow 21 hours ago
          > Defense show = super expensive

          Really depends; there you can see both Lockmart exhibiting multi-billions project, and 150m after some Serbian company selling jet engines for UAVs for a couple hundreds.

    • PaulHoule 23 hours ago
      Very much so.

      I had a friend who'd just gotten out of EE school as a non-traditional student who was working for a company that was making radars for tracking drones maybe five years before the 2022 Russian invasion.

      That was an active system, similar in concept to the radars used in air defense system just scaled down and faster acting.

      The one in this article is a passive system that sees the transmitter on the drone. The comm link is the obvious weak spot on the drone as it can be detected and jammed, it is fairly inevitable that lethal attack drones that work anonymously will be widespread as a result.

      • embedding-shape 23 hours ago
        > that sees the transmitter on the drone. The comm link is the obvious weak spot on the drone

        Isn't most drones run by fiber optic nowadays around the front-lines though? Can't really jam those, but maybe still detect it somehow?

        • RealityVoid 22 hours ago
          According to CivDiv's channel about 70% of the drones used are still RC FPV drones. They are cheaper longer range and have a slightly simpler supply chain. Fiber optic cable prices have exploded because of the war.
          • clouedoc 4 minutes ago
            glad to see someone giving a source. a lot of people here heard of fiber optic drones and decided that now 100% of drones in Ukraine are using those
          • creaturemachine 22 hours ago
            If you count recon and droppers that can use distance to avoid jamming, sure. One-way applications are increasingly fibre.
            • RealityVoid 9 hours ago
              Can you back this up with any authoritative sources?
  • swalberg 4 hours ago
    Would something like this work at much lower frequencies? Being able to see RF at 3-30MHz would be fantastic for hunting RFI in the amateur radio HF bands.
  • fiatpandas 1 day ago
    The visualizer app reminds me of the same UI / output you get from acoustic cameras.
  • Scene_Cast2 1 day ago
    I wonder if this tool can help with EMC compliance testing. My TinySA needs an LNA, so I wonder if this has the required noise floor.
    • raziel2701 1 day ago
      I don't see any professionals turning to this for EMC/EMI testing, they already have all the test equipment for that job.
      • varispeed 1 day ago
        How about "non-professionals"? It could be useful to check device before sending for pre-compliance / compliance checks and save money - that would avoid very expensive iterations.
        • lambda 1 day ago
          But there are already benchtop or handheld signal analyzer for that purpose.

          This seems more like a tool for checking across entire large assemblies like an entire building, car, aircraft, etc, for unknown sources. If you have an individual discrete device that you're already testing, just using traditional instrumentation seems reasonable, but on a large, complex assembly, I can see it being useful. Also useful for things like detecting if a particular antenna is working without actually going up there to measure near it; if you have a MIMO setup with multiple antennas, this might make it easier to check if all of them are working correctly when mounted in inconvenient areas.

      • peteforde 1 day ago
        That's absolutely missing the point. EMC/EMI testing is expensive, time consuming and requires scheduling and experiment design.

        Being able to do local soft-run testing on-site to be sure that you eliminate the easy 90% of issues before you get to the lab would be a huge win.

        • lambda 1 day ago
          I think that for a single device, this probably wouldn't help much over just having a more traditional signal analyzer, either benchtop or handheld. If you know what you're testing, just using a signal analyzer around it will give you a good first pass picture of emissions, and probably be much more informative and precise than this.

          This seems more useful for finding unknown or hidden RF sources, for instance looking thorugh an entire building to find unknown RF sources, or maybe a whole complex assembly like a car or aircraft.

          • peteforde 19 hours ago
            It is surreal to me that a comment stating that being able to do a certification pre-check on site before booking testing got downvoted.

            Sure, maybe this isn't the device for that... but the idea that what I said was objectionable is just bizarre.

    • tliltocatl 1 day ago
      I don't think it's any good for that. It's relatively narrowband and not the frequency you usually have issues with EMC on (5 to 6GHz - unless you are specially transmitting on this frequency you are unlikely to emit anything there).
  • stevage 17 hours ago
    >It can see WiFi through walls

    I don't understand what this is trying to say. Everyone who has ever used wi-fi knows that it works through walls. You try to connect to a wi-fi in an apartment, and there are dozens of other networks showing up.

    So this headline just seems...meaningless?

    • Barbing 17 hours ago
      We know the definitions of "see" and when we take it to be in the "visualize" sense, it tracks for me.
    • roncesvalles 17 hours ago
      I'm guessing if you can "see" Wifi through a wall, you can also infer some things about what's behind the wall, because the signal will have certain obstruction patterns. It becomes an xray.
    • stevenhuang 15 hours ago
      It's RF vision, it let's you visualize RF sources as a coloured blob overlay in real time.
  • aeturnum 1 day ago
    Neat! SDRs have been available at reasonable price points for some time but the processing power to engage with wifi and other digital signals has been somewhat elusive. Assuming RAM can be purchased in the future, I think we might see a lot more prosumer-targeted devices for doing raw signal analysis in the future.
    • miranaproarrow 1 day ago
      Do you have specific SDR in mind? I thought the v2 dongle doesnt have the range of Wifi? SDR is something Ive just recently want to learn to help me understand electromagnetism
  • ww520 13 hours ago
    One use of focused RF detectors is locating hidden cameras via scanning their WiFi or Bluetooth RF signals.
  • tamimio 1 day ago
    It should be more specific, it spots RC drones operated on ~5.8ghz, it won’t spot RC on 900mhz, nor cellular enabled ones.
    • nullpxl 1 hour ago
      I'm not super familiar with this area, but couldn't it see harmonics?
    • brk 1 day ago
      It also appears to have a fairly narrow detection angle. This might work for spotting a drone when you already know roughly where it is, but that problem becomes infinitely harder when you have to scan the entire sky.

      RF drone detection has been a challenging problem for quite a while. Lots of solid state radar/RF detection products have emerged in the space, but it is not a trivial problem. And that is for drones with active RF comms, anything flying autonomously is even harder to detect at a far enough range to actually do something about.

      • tamimio 1 day ago
        > RF drone detection has been a challenging problem for quite a while.

        Correct, there is no bullet proof cuas system to this date.

        > anything flying autonomously is even harder to detect

        Not just autonomously, because even in autonomous mode you would still need other RF like gnss, but you can fly drones without any rf signature at all and utilize a pre captured images saved on board to navigate the drone accurately using its cameras (normal or thermal). In this case, rf interference won’t work, it won’t be detected based on rf signature either, you will have to rely solely on visuals and acoustic, fly at night, and only left with acoustics.. it is a very hard task from technical standpoint.

    • adolph 1 day ago
      Is that a limitation of the antenna? I though QuadRF uses SDR so can see many frequencies, not just the wifi things like ESPARGOS [0]

      From documentation, QuadRF: Operating frequency range of 4.9 - 6.0 GHz (C-Band).

      0. https://espargos.net/

    • _davide_ 1 day ago
      for lack of directonality?
      • relaxing 1 day ago
        for lack of frequency tuning
  • mmaunder 1 day ago
    Historically these have been quickly shut down without much of an explanation.
    • random3 1 day ago
      Please elaborate. There are literary step-by-step videos on how to build these. E.g. https://www.youtube.com/watch?v=g3LT_b6K0Mc
      • ac29 1 day ago
        Phased array radars are export controlled in the US. It doesnt mean its illegal to build or own, but it might be illegal to sell in some cases
        • Onawa 1 day ago
          I thought I remembered even seeing public Git repos with passive radar code that ended up getting shut down due to export controls?
          • lambda 1 day ago
            Yeah, Kraken SDR removed some functionality due to these concerns, if I remember correctly.

            Odd, because export controls don't generally apply to published material (like open source software), but maybe they were worried that because they were also selling the hardware they could have issues due to the combo being export controlled.

            Ah, found discussion of what exactly it was they pulled, it was the passive radar code: https://www.reddit.com/r/RTLSDR/comments/yu9rei/krakenrf_pul...

            And indeed, they confirmed that they believe the open source software should be OK, but they had concerns because they also sell the compatible hardware: https://nitter.net/rtlsdrblog/status/1591657740229046274

            • 0xffff2 23 hours ago
              As someone who works daily with export-control-adjacent hardware and software, my experience is that people tend to aggressively self-censor to a far higher standard than export control regulations actually require. The perceived headache of drawing the ire of whoever it is the enforces this stuff (which as I type this comment I'm just realizing I don't know who specifically is responsible for that) is so scary that people don't want to take any risk at all of being targeted.
            • bluGill 23 hours ago
              If you don't self censor in these cases the law will find you somehow. How change so they get you next time.

              Not always, but pgp wasn't exported that way until not long before there was good demand for for encryption in e-commerce anyway

            • dzhiurgis 1 day ago
              Wonder which LLM would be happy to vibe code it back (not sure if it would be able to pull it off tho).
        • RealityVoid 22 hours ago
          This is not a radar, only a receiver.
          • thomashabets2 21 hours ago
            It can still be in scope:

            > Direction finding equipment for determining bearings to specific electromagnetic sources or terrain characteristics specially designed for defense articles in paragraph (a)(1) of USML Category IV or paragraphs (a)(5), (a)(6), or (a)

            ITAR part 121.

            The "specifically designed for defense" probably makes this OK, but IANAL.

    • cucumber3732842 5 hours ago
      Probably because the people working on them get job offers that come with clauses about not working on this stuff publicly.
    • illliillll 1 day ago
      Do share some more details please
    • jkuli 23 hours ago
      The covered materials are very broad, though often limited to equipment built "for purposes of", like in this section.

      Title 22 Chapter I Subchapter M Part 121 - The United States Munitions List - Category XI Paragraph b

      Electronic systems, equipment or software, not elsewhere enumerated in this subchapter, specially designed for intelligence purposes that collect, survey, monitor, or exploit, or analyze and produce information from, the electromagnetic spectrum (regardless of transmission medium), or for counteracting such activities.

      • go_artemis 22 hours ago
        > specifically designed to collect or analyze information from the electromagnetic spectrum

        Wouldn't that apply to every spectrum analyzer?

        • fc417fc802 18 hours ago
          Where did your quote come from? The comment you're replying to says "specially designed for intelligence purposes". The word "specifically" doesn't appear.
      • jkuli 23 hours ago
        At what point does a microphone become an intelligence device, when we have so many types of microphones. Is it an arbitrary label I can add or remove to a product? Will it apply equally to large manufacturers?
        • fc417fc802 18 hours ago
          It's a matter of intent, which will ultimately be litigated in court and is going to depend on a lot of surrounding factors.
    • knorker 1 day ago
      The explanation may be spelled ITAR.
  • bigtech 23 hours ago
    This has me thinking that fiber optic drones using this technology might be able to discover the location of signal-jamming equipment. But only for the good guys.
  • ericye16 1 day ago
    Sigh, fine. I will buy another radio gadget on crowdsupply.
  • slicktux 1 day ago
    I recall reading the original research paper from a student who made the same RF ‘camera’ here in hacker news.
  • mschuster91 1 day ago
    > It sounds like they had to reverse-engineer the MIPI protocol used on the Pi 5 to do this (since it goes through the RP1 chip), and the way it's architected, you can daisy-chain multiple QuadRF modules together, letting each module calculate it's own phase shift.

    How are they planning on distributing a shared, highly precise clock for that purpose? That's already a PITA if you do QO-100 modes that need high precision, but usually there it's enough to have one good clock that you feed to the LNA... but here? Every single one of these modules needs a very precisely identical timing signal and the kind of chips you can use to multiplex a reference clock signal are pretty expensive.

    • mrtnmcc 22 hours ago
      • mschuster91 22 hours ago
        So, essentially, the secret sauce is tracing a known calibration source's movement to compensate for different cable lengths or weird physical tile arrangements? Neat!
        • mrtnmcc 20 hours ago
          Yes-- but it's open sauce!
  • kristianpaul 1 day ago
    And yet since rtl-sdr times we have passive radars as an option as well https://www.rtl-sdr.com/tag/passive-radar/
    • fer 21 hours ago
      Passive radar is fine for gigantic airliners with all regard for efficiency, none for radar cross section, and that fly above most obstacles. For drones you might be trying to scratch signal not only from below noise floor, but at the edges of quantization.
  • Svoka 21 hours ago
    It is crazy for me to see super secret military tech from 30 years ago commoditized to a system cheaper than gaming console. What a time to be alive!
    • fc417fc802 18 hours ago
      I don't think it was ever (past 30 years) particularly secret? The general concept is long (100+ years) established. However pulling it off used to be exorbitantly expensive.
  • deadcatfound 18 hours ago
    Super cool concept!
  • nekusar 1 day ago
    The original quote for a single tile was $50-$100

    They came out at $500

    Being off by a bit is fine. Being off by 5x to 10x is.. Yikes.

    • go_artemis 22 hours ago
      It's actually sold on their Crowd Supply for $99 per 4-antenna RF tile, just as the said on their website.

      See the 6-pack: https://www.crowdsupply.com/scale-rf/quadrf#products

    • rtkwe 1 day ago
      Prices have gone a little insane in the last year though too to be fair to them.
    • aeonik 21 hours ago
      $500 is a surprisingly good price for a 4x4 mimo SDR.
    • Catloafdev 1 day ago
      It looks like it has 4 tiles on it, no?
      • nekusar 1 day ago
        Yea its mimo 2x2.

        Point still stands that they initially said it would be $50-$100. And its going for $500.

        • ericye16 1 day ago
          I mean if a single tile is 50-100, then 4 is 200-400, so it's not that far?
          • numpad0 8 hours ago
            I think GP misspoke and it's actually four antennas in one tile for this thing.
  • llm_nerd 21 hours ago
    What constraint limits this to 5 - 6Ghz? Is it the antenna? Processing?

    It's a really neat device, but people should realize that it has a very narrow visibility.

    • KaiserPro 10 hours ago
      Antennae, and the front end that feeds into the SDR.

      The lower the frequency, the bigger the antennae need to be (more or less) so a 2.4gig array would most likely be 2x the size of a 6ghz array.

  • superkuh 22 hours ago
    With the end of easily available rtl-sdr dongles it's a relief to see someone has wrung such exceptional RF instantaneous bandwidth out of an RPI alternative interface. I really hope use of the camera interface for RF takes off.
  • brikym 18 hours ago
    Now imagine thousands of these flying around in low earth orbit.
  • AndrewKemendo 1 day ago
    > If the open source community can come up with something like this, just imagine what governments are capable of.

    Since ~2022 and accelerated by the Russian aggression against Ukraine, governments are now behind both private and open source for frontier technology.

    The companies that captured government contracts in the last century can’t move fast enough to bring tech into the government and national technology policy and funding is collapsing compared to the private sector

    That’s new in history

    • vatsachak 1 day ago
      Open source is the future. If everyone can work on it, we get better results for cheaper.

      Open source doesn't mean the end of competition, since we are a competitive species.

      I think the future economy is going to be some sort of UBI + large open source projects

  • peteforde 1 day ago
    I was almost through the checkout flow last week before I realized that this configuration only supports a relatively narrow frequency range.

    I work primarily in sub-GHz radio. Please wake me up when they launch their LoRa version, that would be an instant purchase for me.

  • 0xdeadbeefbabe 20 hours ago
    > If the open source community can come up with something like this, just imagine what governments are capable of.

    Why so bullish on government? The department of motor vehicles is capable of being better, but they aren't.

  • ck2 1 day ago
    if it can spot/track drones that is a marketing opportunity for airports around the world that have to deal with drone nonsense which shut down flights for days
    • bri3d 1 day ago
      Most major airports will already have a counter-UAS system, it's a huge industry.

      One big issue with radar is that it has the same problem pilots and human observers do: it struggles to distinguish drones from anything else in the sky (birds, balloons, planes, etc.). This is an active and improving research space, but by and large with radar, when your pilots report a drone, you still don't know how to figure out if it's the typical mis-identification or something real.

      • ck2 1 day ago
        I'm reading about pilots spotting drones during takeoff/landing that the airport didn't know about

        And I've read about airport shutdowns in UK and US without a single arrest which is why it keeps happening

        So whatever system exists, apparently not good enough

        • bri3d 15 hours ago
          Right, there are two problems there:

          * Pilots are very concerned about life and safety and are heavily exposed to drone “incident” related anecdotes, so they err far on the side of caution with drone sightings. Which is to say a very low percentage of them are real.

          * Poorly implemented cUAS systems, especially ones based on passive or active RF locating (radar) can actually make the problem worse: they hallucinate everything into drones, pilots hallucinate everything into drones, and now everything is a drone. This also happens frequently when people try to repurpose military systems (which are usually designed to operate in significantly less crowded environments and trigger at the slightest hint of an issue, due to mostly orthogonal-to-airports threat models people discuss at length on this thread like “dark drones”) into urban use.

          This type of array based directionfinding system is cool and it could work as a small ingredient in a drone detection system, but it’s not anywhere near the state of the art in the space and most airports are probably already ahead of this to some extent.

    • pixelesque 1 day ago
      If would likely need to track them well (not sure from this article/video if that's the case?) to be useful in that scenario...

      Drawing a splodge in roughly the location (not sure if there's range info either? I doubt it if it's passive) overlaid on the video likely won't cut it...

    • nradov 1 day ago
      Yes, primary radar has been useful for detecting airspace incursions since 1939. Nothing new here.
      • knorker 1 day ago
        The difference with this kind of tech, though, is tracking down the operator.
    • ThrowawayR2 1 day ago
      Phased array antennas (in use since the 1960s) and AESA (in use since the 1990s) are very mature tech that RF engineers are well aware of.

      This gizmo is primarily interesting that it's pre-packaged at a price that hobbyists can afford.

    • btbuildem 1 day ago
      Only the ones that use radio for control. The fiberoptic ones are "dark" to this setup.
    • tamimio 1 day ago
      There are more way advanced systems for cuas, where they infuse radar and visual and acoustic plus now AI to minimize the false positives, but practically speaking, they are not bullet proof and still fail. RID (remote ID) is a way to have a cooperative communication and was mandated in US, but there are ways too to spoof it and cloak it.
      • somehnguy 23 hours ago
        Yeah RemoteID is trivial to spoof using an ESP32. Most hobby pilots I know simply don't comply with RemoteID. And bad actors certainly won't purchase a $75 device to add to their drone.

        It does become a bit more difficult with consumer grade off the shelf drones because it's built in. Still defeatable by the determined of course.

  • diarist_ai 10 hours ago
    [flagged]
  • onetokeoverthe 1 day ago
    [dead]
  • wiredone 13 hours ago
    Outside of spotting ukrainian drone operators in bunkers, why would you need or want this?
    • timonoko 5 hours ago
      I want this. I have Wifi door lock too far away from base station. It was often stuck in a loop trying to connect to neighbours' Wifis. By try and error I managed to block those using metal foil, but it was hard work.