Was this article paid astroturfing for the Drone Defender?
It made some vague allusions to that product's market and then suggested that federal regulations would prevent the sale of it to local law enforcement, but I didn't see any real argument for why local law enforcement should be able to buy jammers other than some isolated incidents in prisons. There also wasn't any explanation for why the FCC and FAA have the rules about jamming. I suspect devices like the Drone Defender are banned for good reason.
I would think jamming signals on anything flying is a bit on the dangerous side. Yeah some commercial drones will gently land but there's no guarantee. I'd also think it would not take the criminals they are trying to stop long to realize it and find ways around it. Such as preprogramming flight paths in and allowing them to fly without any need to have radio communication.
You might be able to bring a drone in using accelerometers only. Given an assumed measurement error and integration time for the sensor you could calculate how far you'd need to be from the prison before the error in position becomes a problem. So jamming doesn't really buy you anything if you can program a flight path.
I bet you could build a drone that flies off of a visual guidance system using IR beacons to locate itself. Something like a giant version of the Wii's sensor bar.
IR beacons have the downside of blatantly broadcasting their positions, but they might be less jammable than radio waves? OTOH, pointing an IR laser at your camera isn't that hard, so maybe not.
You could also take a page from the SR-71 and correct your inertial guidance system's error using star observations. Only needs to see up, so you can shield it against blinding attempts from below. Can a drone-weight camera pick up stars?
The difference here is that a drone will not be doing 2200mph over 3k miles so differences in the position of stars won't be particularly noticeable. You may be able to do some trickery with a few outward facing cameras and some software to map the horizon though.
Yeah, I'd trust it more as a source of direction than a magnetometer though.
Horizon tracking would be super cool. You'd have to open your cameras to blinding attacks again to make that work, but still. Even as a project unrelated to getting around jamming, that would be a neat piece of tech.
Well a much better way to do optical guidance would be to do what some cruise missiles do, look at the ground below and find the most similar image in a big database of aerial photographs. The insane thing about this approach is that it was done in the 50s![0]
Another approach would be to do what insects do and use optical flow. Essentially look at how fast the ground is moving to figure how fast the UAS is moving and integrate to figure out where you are. This is exactly how optical mice work, in fact optical mice sensors have even been used to do this. Below is an example of a quadcopter that employs such system.[2]
If I really wanted to get around this, you can just use your magnetometer and do a 180 whenever you get interference. Combined with a pressure sensor (typically accurate to within a few feet of altitude if calibrated correctly) you can probably escape without issue. If you really wanted to be a PITA, just pick an arbitrary frequency pair and let https://en.wikipedia.org/wiki/Instrument_landing_system be your guide.
er does anyone producing these not know the radiation patterns for a yaggi - held like a normal rifle you would have a nice high power lobe right through the operators brain.
CISCO all ready do some very tasty airnet kit that attacks rouge ap's and hosts.
The signal wouldn't have to be very strong, it should be relatively harmless for the operator. (Most rc rf transmitters send with <<1W PEP and a low-gain antenna.).
Also, at multiple GHz (most rc rf links used today are 2.4 GHz (no, I don't mean WLAN)), the waves don't penetrate the skin very well.
Also, Yagi antennas have (not perfectly, of course, but approximately) unidirectional beam patters; that's what the reflector elements at the end are for. The back lobe isn't very strong.
Also, the exposure would be for a very short amount of time.
Many radar operators are exposed to much, much stronger radiation on a continuous basis. Though admittedly, they do get cancer.
The actual emitted power is magnified by the antenna gain (say 14db) its not consumer 100 mw any more. And those sort of antennas have very pronounced side lobes.
And to get range they normally run these blue tooth/wifi sniper rifles much hotter than your consumer wifi AP
The antennas nominal gain applies only in the direction of the main lobe, ie. not towards your head.
A typical Yagis strongest sidelobe will be well into the negative dB.
Also, both the consumer hardware 100mW limit and the 4W PTP limit are EIRP (in the US; apparently; I'm from Germany), so the gains don't matter.
And you achieve them with very directional antennas (which are hard to aim by hand), not with a strong transmitter.
Radio range is not the problem at all when aiming by eye - because your target is small, it's line of sight, and the pilot is likely not using a very strong transmitter and a very directional antenna.
I thought Cisco just broadcast disconnect messages for the rogue APs? That way, the AP gets "shut down" because nobody can connect to it (they just disconnect as soon as they've connected), not due to any wizardry.
In a sense it would reduce the amount of airspace being utilised by many wireless clients (as they couldn't connect) but it can only do this by bombarding the same airspace with disconnect messages, thereby contributing to the problem it is attempting to solve (cramped airspace).
Seems like a 12 gauge with birdshot would do a pretty decent job of taking down any drone I've ever seen.
Seems like that might be a little cheaper than developing ECM to target drones. Although if it is really just a pork-barrel, then a $200 shotgun with $25 worth of shells is much less efficient than a multi-thousand dollar radar jammer rifle.
Max range for birdshot is ~120 feet so a drone can just increase its altitude and be safe. Also you have to be aware of what is beyond your target which might not be possible in an urban environment.
Proper leading of the target is also required, and with birds crossing in front of you that's pretty hard in my experience (you have to aim your gun at where the target will be when the shot gets that far out; shooting birds you've just flushed into the air, traveling away from you is lots easier, e.g. turtledove vs. quail).
Effective range for taking out a drone is "as far as the bird shot will shoot" which is much further than ~120ft. We aren't talking about effective range (e.g "breaking a clay plate").
That being said - your point about increasing altitude still stands. I'm not sure how birdshot will go when shot near vertically - but it can travel well over 200 yards horizontally depending on if you're using 04 or 08, etc. At a certain point its harmless to humans unless it hits in the eye but as long as it hits a blade of a drone it could still damage the drone and bring it down. It doesn't need to completely destroy the drone like a point blank blast of a double barrel with buckshot would.
As mentioned below, birdshot is really not that dangerous when it is coming down from its apex. Unless maybe it hit you in the eye. I've had shot fall on me goose and duck hunting before. Not worse than hail.
In a situation like a max-security prison, where you've already got cleared dead spaces around it to shoot escaping prisoners, its not really an issue.
Makes sense, don't work on building a drone company, you're too late, build a drone defense company and convince every police station they need your product.
Asking for a friend: Is there any portable, viable laser device that could be shoulder fired (backpack powered?) with enough energy to actually drill a hole in one of these from afar? If talking jamming frequencies (illegal) then why not just up the ante and go with a precision weapon? Zap N Crash!
It seems people aren't thrilled with the prospect of debris landing on people underneath. More likely we'll end up with bigger drones that grab smaller drones with a net so they won't fall at this rate, or some sort of net-gun that after wrapping the drone immediately yanks it back fast enough that it won't hit the ground/people.
I'm sure there's something like what you're describing in existence, probably in a lab somewhere, clamped in front of a metal plate with burn marks on it. I think you're out of luck on commercially available man-portable lasers for effectively shooting down a drone in a real-world scenario. There's a reason why people making videos of their lasers on Youtube are using them to pop balloons.
Even if that sort of laser for sale at a reasonable cost, you probably don't want or need one for killing drones. If you've escalated to actually blowing the drone out of the sky, you might as well use a gun. Guns are great at that and they're much cheaper. The bullets and shot you fire into the air do pose a safety risk on the way back down, but if reasonable steps are taken it's probably not a big enough deal to justify using a laser instead. (Caveat: in dense urban areas it's very difficult to even begin taking those "reasonable steps" and firing anything into the air is a recipe for tragedy. If you're seriously looking to take out a drone in a city, a laser makes a lot more sense.)
Another downside is that the laser needs to be held on its target to work, and that's a pain in the ass when the target is a drone. Even a relatively stable model flown by a skilled operator is still going to bob and weave, and the drone is presumably not hovering perfectly still while you're trying to break it. Today, hitting that target once with a shotgun is probably easier than holding a laser on it for the amount of time you'd need.
In the future, that will probably not remain true. Lasers (or really any devices that emit energy in a tight beam) are inherently better long-range direct-fire weapons than firearms because the laser moves in a straight line and you can get it to go farther. Travel time is pretty obviously another area where lasers win. As laser technology improves, we'll see more powerful lasers that can do damage in less time and automated platforms for doing the aiming. A future scenario where militaries use automated energy weapons against unmanned aircraft is very realistic, so a future scenario where a police officer shoots down a drone with a laser is certainly within the realm of possibility.
That laser is going to require accurate tracking to heat a target to the point of damage. Additionally, reflected laser light of that intensity is not usually safe to look at without protection.
No. Portable laser weapons are simply not possible with current electricity storage technology. Those railguns the navy are experimenting with are intended for mounting on ships and wiring into the powerplant, and a laser would be even worse in that regard. If you want a weapon for making holes in flying things, the answer for drones is the same as for birds or planes: a gun, or a missile for bigger, higher ones.
Not a radio guy but there isn't some way to listen for radio signals, figure out where they are comming from (to get the opperator) then duplicate them and land the drone
As an American (or 'Murican, if you prefer), the ham-handed attempt by multiple hierarchical levels of government to rein in and control the hobbyists flying cheap, miniaturized, computer-stabilized, remote-piloted aircraft only makes me want to get one and fly it as an act of protest. If the gummint banned them outright, I'd want two.
Knowing that the federals are themselves creating partially self-piloted full-sized aircraft armed with lethal area-effect weaponry (Predator/Reaper/Avenger/Grey Eagle) or surveillance arrays capable of observing entire cities at once (Gorgon Stare/Constant Hawk/Angel Fire) makes me angry at the hypocrisy and nervous about the potential consequences.
If nothing else, it undermines my enjoyment of modern and sci-fi subgenres of the Western, and any War-genre movie with an underdog guerilla group. For instance, when Hunger Games 3a showed me a fighter-bomber going down to a bow and arrow, it was Sid Meier's Civilization modern jet fighter vs. archers-stack all over again. It just can't happen, people; you can't fight war machine X on the traditional battlefield without anti-X weaponry. And you can't fight a nation that deploys hunter-killer drones with just AR-15s and AK-47s. Your tactics have to change dramatically.
I think all this drone/anti-drone arms-racing is just going to push Americans into inventing 5th-generation warfare sooner, and it's going to be really, really ugly. Prison drug deliveries are just the tip of the iceberg.
The reason I chose it: there are enough dangling light pulls, and when I lose control, enough other stringy things around the edges of the room, that I've damaged props on other mini drones. The cage has effectively eliminated (or at least severely reduced) the problem. I presume a slightly lager drone can have better shielding.
43 comments
[ 4.0 ms ] story [ 74.9 ms ] threadIt made some vague allusions to that product's market and then suggested that federal regulations would prevent the sale of it to local law enforcement, but I didn't see any real argument for why local law enforcement should be able to buy jammers other than some isolated incidents in prisons. There also wasn't any explanation for why the FCC and FAA have the rules about jamming. I suspect devices like the Drone Defender are banned for good reason.
IR beacons have the downside of blatantly broadcasting their positions, but they might be less jammable than radio waves? OTOH, pointing an IR laser at your camera isn't that hard, so maybe not.
You could also take a page from the SR-71 and correct your inertial guidance system's error using star observations. Only needs to see up, so you can shield it against blinding attempts from below. Can a drone-weight camera pick up stars?
Horizon tracking would be super cool. You'd have to open your cameras to blinding attacks again to make that work, but still. Even as a project unrelated to getting around jamming, that would be a neat piece of tech.
Another approach would be to do what insects do and use optical flow. Essentially look at how fast the ground is moving to figure how fast the UAS is moving and integrate to figure out where you are. This is exactly how optical mice work, in fact optical mice sensors have even been used to do this. Below is an example of a quadcopter that employs such system.[2]
[0] https://en.wikipedia.org/wiki/TERCOM [1] https://en.wikipedia.org/wiki/Optical_flow [2] https://www.youtube.com/watch?v=bbS1N--bT0w
CISCO all ready do some very tasty airnet kit that attacks rouge ap's and hosts.
Also, at multiple GHz (most rc rf links used today are 2.4 GHz (no, I don't mean WLAN)), the waves don't penetrate the skin very well.
Also, Yagi antennas have (not perfectly, of course, but approximately) unidirectional beam patters; that's what the reflector elements at the end are for. The back lobe isn't very strong.
Also, the exposure would be for a very short amount of time.
Many radar operators are exposed to much, much stronger radiation on a continuous basis. Though admittedly, they do get cancer.
And to get range they normally run these blue tooth/wifi sniper rifles much hotter than your consumer wifi AP
PTP you can run 4W
Also, both the consumer hardware 100mW limit and the 4W PTP limit are EIRP (in the US; apparently; I'm from Germany), so the gains don't matter. And you achieve them with very directional antennas (which are hard to aim by hand), not with a strong transmitter.
Radio range is not the problem at all when aiming by eye - because your target is small, it's line of sight, and the pilot is likely not using a very strong transmitter and a very directional antenna.
In a sense it would reduce the amount of airspace being utilised by many wireless clients (as they couldn't connect) but it can only do this by bombarding the same airspace with disconnect messages, thereby contributing to the problem it is attempting to solve (cramped airspace).
Seems like that might be a little cheaper than developing ECM to target drones. Although if it is really just a pork-barrel, then a $200 shotgun with $25 worth of shells is much less efficient than a multi-thousand dollar radar jammer rifle.
Effective range for taking out a drone is "as far as the bird shot will shoot" which is much further than ~120ft. We aren't talking about effective range (e.g "breaking a clay plate").
That being said - your point about increasing altitude still stands. I'm not sure how birdshot will go when shot near vertically - but it can travel well over 200 yards horizontally depending on if you're using 04 or 08, etc. At a certain point its harmless to humans unless it hits in the eye but as long as it hits a blade of a drone it could still damage the drone and bring it down. It doesn't need to completely destroy the drone like a point blank blast of a double barrel with buckshot would.
In a situation like a max-security prison, where you've already got cleared dead spaces around it to shoot escaping prisoners, its not really an issue.
Even if that sort of laser for sale at a reasonable cost, you probably don't want or need one for killing drones. If you've escalated to actually blowing the drone out of the sky, you might as well use a gun. Guns are great at that and they're much cheaper. The bullets and shot you fire into the air do pose a safety risk on the way back down, but if reasonable steps are taken it's probably not a big enough deal to justify using a laser instead. (Caveat: in dense urban areas it's very difficult to even begin taking those "reasonable steps" and firing anything into the air is a recipe for tragedy. If you're seriously looking to take out a drone in a city, a laser makes a lot more sense.)
Another downside is that the laser needs to be held on its target to work, and that's a pain in the ass when the target is a drone. Even a relatively stable model flown by a skilled operator is still going to bob and weave, and the drone is presumably not hovering perfectly still while you're trying to break it. Today, hitting that target once with a shotgun is probably easier than holding a laser on it for the amount of time you'd need.
In the future, that will probably not remain true. Lasers (or really any devices that emit energy in a tight beam) are inherently better long-range direct-fire weapons than firearms because the laser moves in a straight line and you can get it to go farther. Travel time is pretty obviously another area where lasers win. As laser technology improves, we'll see more powerful lasers that can do damage in less time and automated platforms for doing the aiming. A future scenario where militaries use automated energy weapons against unmanned aircraft is very realistic, so a future scenario where a police officer shoots down a drone with a laser is certainly within the realm of possibility.
[0] https://www.youtube.com/watch?v=HC89KRV7l9M
Knowing that the federals are themselves creating partially self-piloted full-sized aircraft armed with lethal area-effect weaponry (Predator/Reaper/Avenger/Grey Eagle) or surveillance arrays capable of observing entire cities at once (Gorgon Stare/Constant Hawk/Angel Fire) makes me angry at the hypocrisy and nervous about the potential consequences.
If nothing else, it undermines my enjoyment of modern and sci-fi subgenres of the Western, and any War-genre movie with an underdog guerilla group. For instance, when Hunger Games 3a showed me a fighter-bomber going down to a bow and arrow, it was Sid Meier's Civilization modern jet fighter vs. archers-stack all over again. It just can't happen, people; you can't fight war machine X on the traditional battlefield without anti-X weaponry. And you can't fight a nation that deploys hunter-killer drones with just AR-15s and AK-47s. Your tactics have to change dramatically.
I think all this drone/anti-drone arms-racing is just going to push Americans into inventing 5th-generation warfare sooner, and it's going to be really, really ugly. Prison drug deliveries are just the tip of the iceberg.
http://reviews.costco.com/2070/100222794/syma-model-aircraft...
The reason I chose it: there are enough dangling light pulls, and when I lose control, enough other stringy things around the edges of the room, that I've damaged props on other mini drones. The cage has effectively eliminated (or at least severely reduced) the problem. I presume a slightly lager drone can have better shielding.