back to article The remote control from HELL: Driverless cars slam on brakes for LASER POINTER

What do you get if you put a cheap laser pointer together with a Raspberry Pi? An attack that works against today's "assisted driving" vehicles and could make life hard for the driverless cars of tomorrow, according to researcher Jonathan Petit. Petit, of Security Innovation, says $60 worth of laser with a bit of smarts makes …

  1. Chairo
    Devil

    Not so different from a conventional car then

    if you blind the driver with a laser pointer, he will probably hit the brakes, too. No need to create complex obstacles or anything, using laser echos.

    These things can be a pest. Especially in vacation sites where they are sold to teenagers that have nothing better to do than pointing them around on others at night.

    1. Nimby
      Thumb Up

      Re: Not so different from a conventional car then

      Right. Why even bother with the laser pointer? Hit a car driver with a flashlight. (Or if that's not techie enough for anyone, amp it up to one of those DIY 1000w LED flashlights on the interwebs.)

      The good news is that driverless car does stop. Human drivers would probably just blink and squint and keep on driving.

      As for the technical solution, there's simple and there's complex. Simple is redundancy. Lidar, radar, sonar, thermal Imaging, IR Imaging, blah blah ad infinitum. The more systems that have to agree in order to take action, the more outliers can be logged and ignored.

      Complex is really not all that complex either, it's just smarter algorithms. Time-shift an event to confirm its validity. Things don't appear out of nowhere. A spoofed wall of humans would have had to walk in from somewhere.

      Sure, adding more "security" into the Lidar wouldn't be such a bad idea either. These are all things that can be improved as the technology advances.

      But at the end of the day, the worst-case scenario of this alleged hack (I can't even call it a real one, it's just so ... obvious) is that the car does the Safe Thing. When blinded or confused, it stops. I can't think of a better safety protocol than that. If that means "attacking" driverless cars is an easy DoS then maybe learning how to drive is still relevent to life. **shrug** Manual override sounds like it will always be a handy feature to have. And so, apparently, will patience.

      1. Anonymous Coward
        Anonymous Coward

        Re: Not so different from a conventional car then

        Trouble is, even technical solutions may be easy to bypass. If you can blind one sensor with that little hardware, what's to stop a determined creep from building several of them at once, each able to mimic one of the frequency bands and then point them all at the car at once so that eventually more sensors are fooled then not and win the vote? As for things like time-shifting, there IS a real-world event that can look JUST like a sudden obstacle appearance: some sort of collapse like a felled tree or telephone pole, or something more disastrous in nature. Meaning sudden signals are ignored only at peril of the passengers, so they MUST wax cautious.

      2. Solmyr ibn Wali Barad

        Re: Not so different from a conventional car then

        "The good news is that driverless car does stop."

        Unless it starts to execute high-G maneuvres at speed, as frequently envisioned by forum-dwellers. What could possibly go wrong? Robocars are so bloody good at everything they do, unlike those pesky meatsacks.

        What was the last grand vision few weeks back? Aye, seem to remember. Robocars should gather situational awareness from each other, and collectively plan an evasion route. Through the oncoming traffic if needed. Or up the chimney.

        /troll.jpg/

      3. v1m

        Re: Not so different from a conventional car then

        "The good news is that driverless car does stop."

        The bad news is that a busload of orphans carrying one-eyed puppies is directly behind it.

        Worse, you're driving the bus.

        1. Trevor_Pott Gold badge

          Re: Not so different from a conventional car then

          The bad news is that a busload of orphans carrying one-eyed puppies is directly behind it.

          But since youa re presumably of the "humans are superior" camp (teh camp of the insane, btw,) you wouldn't be following too close and would easily have enough reaction time to stop in response to the car in front of you.

          ...wouldn't you? I mean, you do follows the laws regarding road saftey...don't you?

          If not, why is it the fault of an autonomous car doing the safe thing that you are unable to maintain focus on your one job of driving and drive within the rules?

          ...or are you trying to put human fallibility and inability to actually pay attention, follow the rules and drive in a safe fashion off onto the robots? A human driver in front of you might do something strange that you don't predict at any moment. As a driver it is your job to be ready for that - for anything really - at any time.

          If you can't do that, why the merry fuck are you behind the wheel?

          Sounds to me like perhaps you should be replaced.

          Maybe by robots.

        2. kiwimuso
          WTF?

          Re: Not so different from a conventional car then

          "The bad news is that a busload of orphans carrying one-eyed puppies is directly behind it.

          Worse, you're driving the bus."

          Will this mean a dramatic rise in car jackings? What an easy way of stopping a car.

          And they call it "security". Hah!

      4. Michael Wojcik Silver badge

        Re: Not so different from a conventional car then

        it's just smarter algorithms. Time-shift an event to confirm its validity. Things don't appear out of nowhere

        That's an impressively stupid heuristic for an automated vehicle to use, since in the real world, obstacles quite often do suddenly appear in the path of the vehicle. Several times I've had vehicles in front of me on the road lose cargo or parts, for example; sometimes those aren't even visible until they fall off or out of the source vehicle. Deer leaping out of the woods on the side of the road. A tree limb that breaks off in a storm (particularly on a dark night). Something falling off a building. And so on.

        There's a vast difference between "things don't appear out of nowhere" and "things you couldn't see before suddenly become visible". The truth of the former has no bearing on the latter - and it's the latter that matters.

    2. Rick Brasche

      Re: Not so different from a conventional car then

      I don't know about you, but I can look away from a single light point source rather easily. Helps when commuting around sunrise/sunset.

      Humans adapt. Hardware not so much, nor so quickly.

      1. Chairo

        Re: Not so different from a conventional car then

        I don't know about you, but I can look away from a single light point source rather easily. Helps when commuting around sunrise/sunset.

        Believe me, coherent light from a green laser will blind you more than just a moment. Especially at night. Looking away does not help, you have to close your eyes as long as the light source is pointed at your head.

      2. Trevor_Pott Gold badge

        Re: Not so different from a conventional car then

        Humans adapt. Hardware not so much, nor so quickly.

        You are hardware. Just of lesser construction.

        Fleshbags are failure.

  2. Lusty

    This deserves a slow clap at best. Could I get published by documenting a denial of service on traffic lights by gluing in the button? Obvious attacks don't need to be published although this may end in the car people adding a secure tag to their LIDAR systems - something they'd have probably done anyway to prevent interference once these become popular. Obviously blinding the system will always cause havoc, but getting out of the car and beating the wanker who's laughing and holding a laser pointer within 100 yards would sort that...

    1. Voland's right hand Silver badge

      You are being too harsh

      The guy demonstrated that:

      1. The lidar is susceptible to a trivial replay attack

      2. The lidar does not deploy any encoding to protect against interference.

      3. He did a POC on both

      The only possible reason for the clap being slow is that the lidar security was utter crap to start with.

      Malicious attacks aside, I do not see how the hell can this wonderful gizmo operate if every car will have one. The interference from other car units should kill it outright.

      1. Ralph B
        Alert

        Re: You are being too harsh

        > I do not see how the hell can this wonderful gizmo operate if every car will have one

        An excellent point, Mr. Hand. What does happen when a Google self-driving car meets another Google self-driving car? Do they both come to a halt in a confusion of LIDAR reflections? Please say it isn't so?

        1. Anonymous Coward
          Anonymous Coward

          Re: You are being too harsh

          What does happen when a Google self-driving car meets another Google self-driving car?

          The inevitable, captive-audience in-car advertising will switch to dating services? Life is short and all that?

        2. Mark 85

          Re: You are being too harsh

          Take it a step further.. a non-Google self-driving car involved. I would think that different manufacturers of autos would lean towards their own tech or someone else's tech and have it modified a bit. Google cars might be compatible on the roads but other cars might not be compatible with them. All LIDAR, etc. isn't the same and it's too early in the tech for standards to be put into place.

        3. Trevor_Pott Gold badge

          Re: You are being too harsh

          An excellent point, Mr. Hand. What does happen when a Google self-driving car meets another Google self-driving car? Do they both come to a halt in a confusion of LIDAR reflections? Please say it isn't so?

          Having seen multiple of them driving side by each, they seem perfectly fine. They are able to approach from multiple angles, make the correct decisions about right of way, and proceed through intersections to go about their day.

          I think that's been solved aged ago, mate.

          FYI: There are lots of cars out there with LIDAR that ship in volume. They also see eachother on a daily basis. They have not freaked out and stopped working thus far. Similarly, Google cars encounter LIDAR-equiped cars from other manufacturers on a regular basis (especially in Mountain View, I assure you!) and they don't have any problems interacting.

      2. Stevie

        Re: The lidar is susceptible to a trivial replay attack

        Requires a portable computer to do so not *so* trivial, but I get your point.

        The Raspberry Pi Foundation should have an award for the least worthwhile use of the Raspberry Pi. They could use a well-hammered timex mounted on a dinged-up wooden plaque for the trophy.

  3. Sorry that handle is already taken. Silver badge

    Anti-spoofing

    I can imagine that one way to avoid being spoofed in this way is to encode your own LIDAR pulses, possibly also using a variable frequency, so that you can filter out the spurious echos from signals that you know you just sent.

    1. Anonymous Coward
      Anonymous Coward

      Re: Anti-spoofing

      Encoding with any predictable pattern would fairly soon be broken too, mulling this over this cup of tea and heavily Marmited toast random noise comes to mind, sample a noise source, encode the LIDAR pulses with it and compare the result, if your noise source is truly random the chances of someone being able to spoof it are, I think, close to if not completely impossible but it might still be possible to DoS the system by flooding it with other noise sources.

      A further improvement could be a method similar to that used by professional alarm system sensors, Dual Tech, LIDAR and RADAR, you'd need to effectively spoof or jam both

      1. Charles 9

        Re: Anti-spoofing

        But given how cheap the jamming kit is, multiple jammers are well within the realm of feasibility, as is listening long enough to mimic a pulse code, which has to have a reset mechanism in case the pulse finds open road and no reliable return.

      2. JetSetJim

        Re: Anti-spoofing

        IANA LIDAR Engineer, but if you can mess around with light frequencies & timings of the pulses, then loads of techniques from mobile phone tech become possible. Lots of work would need to be done to work out what density of users it would support, and how to make it so that signatures are sufficiently unique for each car to work out which is their signal, but the techniques would be broadly off the shelf.

        1. Androdgenous CowHerd

          Re: Anti-spoofing

          Couple a Random Number Generator to the LIDAR generator & modulate the pulses as per the RNG.

          The LIDAR sensor ignores everything not on that exact modulation as obviously not having originated from itself.

          Every RNG seconds the RNG+LIDAR sequence is reset, recalculated with a new RNG, and thus the filtered signals are never the same from cycle to cycle.

          In order to spoof such a system one would only be able to do so for the duration of a single cycle, at which point the targeted LIDAR unit picks a new RNG, filters out everything not modulated TO that RNG, and thus renders the spoofing device moot.

          The spoofer can scan the target again & try to spoof the results, but it can only do it for however long the target is still using the detected RNG sequence.

          The moment the target switches RNG patterns, the spoofer has to start all over again.

          Granted if enough vehicles on the road are using the same RNG+LIDAR sequencer system, the spoofer is bound to find a number of targets using the RNG that will then react to the spoof, but that only lasts as long as the targets are still using that same RNG sequence.

          TL;DR: Connect a random number generator to the LIDAR pulse generator, have the LIDAR sensor ignore everything not modulated to that exact RNG sequence, and change RNG sequences every random seconds.

    2. Anonymous Coward
      Anonymous Coward

      Re: Anti-spoofing

      Ask the bats and dolphins. Not getting others pulse-reflections confused with theirs has evidently been a solved problem for tens of millions of years. And don't try to patent that shit, that counts as prior art.

      1. Stoneshop
        FAIL

        Ask the bats and dolphins

        They never get their own signals drowned out by boat engines and ultrasonic rangefinders, yes?

        I refer the honourable gentleman to Douglas Adams and Marc Carwardine's lack of encounter with the Yangtze River Dolphin, and the acoustic impression of the underwater environment in said river.

    3. Toltec
      Joke

      Re: Anti-spoofing

      Rotating the shield frequencies and a minor reconfiguration of the deflector dish should do the trick.

      1. Michael Wojcik Silver badge

        Re: Anti-spoofing

        Rotating the shield frequencies and a minor reconfiguration of the deflector dish should do the trick.

        Fool! You forgot to reverse the polarity!

    4. Sorry that handle is already taken. Silver badge

      Re: Anti-spoofing

      What I was thinking when I mentioned encoding was some sort of shifting, timestamped cryptographic signature, which I think would make difficult to replay?

      Or does that still not get around a replay attack? I'm definitely not an expert here.

      1. Anonymous Coward
        Anonymous Coward

        Re: Anti-spoofing

        As noted before, the sequence may need to be reset if it gets a series of bad (or in the event it projects out to open road, NO) returns, meaning it can't be sure of itself. If one can blind the system enough such that it can't figure out if a return came or not, it could trip the reset in that case and create a predictable point of reference by which one can guess the sequence.

  4. frank ly

    It's like the early days of the internet ...

    ... when everybody assumed that everyone else was 'nice'.

    Also, nowadays, a team of engineers being whipped into making something 'that works' as quickly as possible.

    1. Anonymous Coward
      Anonymous Coward

      Re: It's like the early days of the internet ...

      You mean the early seconds of the internet...

  5. Anonymous Coward
    Anonymous Coward

    Why bother with a laser?

    My cheaper than chips robot car nobbler, mk 1 and mk 2. The Mk 1 is a piece of cardboard with a red green and yellow circles on it, and a torch shining red behind the red circle. May need an additional 'temporary roadworks - stop here sign'. The Mk2 is slightly more evil, the roadrunner style white line gently curving off the road towards a convenient cliff. Use paint, of if you haven't any paint use loo roll.

    1. Anonymous Coward
      Anonymous Coward

      Re: Why bother with a laser?

      You forget the "R" part of LiDAR and RADAR: which stands for "Ranging". These systems can detect "Cartoon paths" because they can see the obstacles for what they are. Now, the fake construction sign itself can be annoying but works on humans and has been known for decades, so you'd think a car that sees a sudden construction sign would pass the word on.

      1. Anonymous Coward
        Anonymous Coward

        Re: Why bother with a laser?

        Well that actually helps my plan, because any fool knows that you have to see the drop before you start falling, so if the LIDAR can't range the chasm below, the car would just hang suspended in space rather than plunging down.

        My [slightly] more serious point is that outside of ultra-controlled environments, the 'driverless' car is so vulnerable to the vagaries of weather and environment (snow, rain, potholes, cows on the road, dead rabbits, faded paint, tractors parked on verges, blown over wheely bins etc) and so vulnerable to mischief or malice that they will have to revert to manual control, so all of a sudden all those 'drive me home when I'm drunk' or 'drop the kids at school while I snooze' or 'drop me at work and then go find a parking space' benefits evaporate. Basically scientists are re-inventing trains! But hey, we still think digital watches are a pretty neat idea.

        1. Anonymous Coward
          Anonymous Coward

          Re: Why bother with a laser?

          "My [slightly] more serious point is that outside of ultra-controlled environments, the 'driverless' car is so vulnerable to the vagaries of weather and environment (snow, rain, potholes, cows on the road, dead rabbits, faded paint, tractors parked on verges, blown over wheely bins etc) and so vulnerable to mischief or malice that they will have to revert to manual control,"

          You assume the car and/or its engineers can't figure these out at some point. But even as chess computers and systems like Watson can pick things up, so too can car driving computers. All you're talking about is unaccounted-for things which soon become accounted-for things. Unless you can demonstrate something accountable-for.

          1. Solmyr ibn Wali Barad

            Re: Why bother with a laser?

            "You assume the car and/or its engineers can't figure these out at some point."

            And you seem to be assuming that all potential problems are detectable and avoidable by technical means. Which isn't necessarily true.

            To pick one example: a logo with four rings. It's an internationally recognised warning sign for elevated traffic hazard. Albeit unofficial. There's a strong likelyhood that an object with four rings will undertake reckless maneuvres with no advance warning whatsoever, so it is wise to have extra safety margins around such objects. But in automated systems, there is no chance to see this bit of 'knowledge' accounted for.

            1. toughluck

              Re: Four rings of death

              Worse still, singling out certain logos may be seen as discriminatory, and the manufacturer could be sued by owners or the manufacturer of objects marked with the four ring warning symbol.

              1. Solmyr ibn Wali Barad

                Re: Four rings of death

                Precisely so. It's not a technical impossibility, but a legal one. I tried to add this bit to the previous post, couldn't, edit request timed out.

  6. imanidiot Silver badge

    Why spoof an object

    if you want to confuse a Lidar unit, couldn't you just provide it with plenty of spurious light so that it's own reflections get drowned out? By just shining a laserpointer into it for instance?

    1. Parax

      Re: Why spoof an object

      You can code for blinding to fall back to radar and Ultrasonic Sensors..

      If you match the modulation and create fake objects then the code could think they are real (but invisible to Radar/US) its an awkward trick to exactly match the modulation.. probably more hassle than it is worth...

      1. Anonymous Coward
        Anonymous Coward

        Re: Why spoof an object

        Unless you're a determined adversary (a real a-hole IOW) AND the hardware (as noted in the article) is cheap enough.

  7. Parax

    It's not just an issue for any lasers.. otherwise two cars would stop each other.. it needs to match the lidar encoding, which is why the modulation is required. and if you are going that far you can modulate for specific locations and hence individual objects.

    The blinding issue is a problem that can easily be overcome with two lasers on different light frequencies and coding that falls back to ultrasonic and radar (probably slowing the vehicle) in the event of laser blinding.

    Yes it probably works on test vehicles which are designed to fail-safe when they encounter a problem.

    1. Anonymous Coward
      Anonymous Coward

      But the equipment is cheap enough you can probably blind two or more systems at once, meaning you make the false signals win the vote.

  8. Jason Bloomberg Silver badge

    $60 and a Pi?

    A simple painted "Road Closed" sign would have done the job. A blue one with "Police" also stated on it would additionally deter anyone tempted to try their luck.

    Not that I know this.

    1. druck Silver badge

      Re: $60 and a Pi?

      As most cameras use IR, you could make a road closed sign that is only visible to robo-cars. How long do you think would the occupants sit there with all the other traffic whizzing past?

      1. Charles 9

        Re: $60 and a Pi?

        "As most cameras use IR, you could make a road closed sign that is only visible to robo-cars. How long do you think would the occupants sit there with all the other traffic whizzing past?"

        As they expect the "closed" sign to be smack in the middle of the road as a physical obstacle, why bother with the obfuscation at this point? An actual ROAD CLOSED sign will suffice AND has the added benefit of confounding human drivers.

  9. Your alien overlord - fear me

    I always thought this - if you get a road full of driverless cars, all firing their lasers, how would each car know it was 'their' laser signal bouncing back? I 'assumed' (I know, I know) that each unit has a key/was encrypted. Seems like I better not hang up my driving license just yet.

    1. imanidiot Silver badge

      All signals are modulated and sort of encoded. But it's not encryption. So an outside party can still work out when the next laser pulse is send out and work out when it needs to send it's spoof pulse to confuse the lidar unit.

  10. herman

    Absorbing plastic

    I can think of a new use for radar absorbing 'stealth' plastic: The ACME portable pot hole.

  11. Anonymous Coward
    Anonymous Coward

    Lots of dismissal round the net on this one, but what about a hijack situation?

    Certain drivers are taught how to deal with people attempting to stop the vehicle in a hijack scenario, keep moving until their payload is in a safe location. Lots of advice at times from police about being cautious when stopping on rural roads (the old eggs on the windscreen trope doing the rounds for years) etc.

    Handy then that this bypasses all that and has your car stop neatly without any of that nasty meatbag thinking assessing the situation and maybe not wanting to pull up whatever while that big gang of scallies with baseball bats is waiting.

    This'd also be great fun strapped to a non autonomous vehicle to cause rolling mayhem, keep traffic flows down to make good progress ahead etc. No wait, lets carry on as you were!

    1. Anonymous Coward
      Anonymous Coward

      Certain drivers are taught how to deal with people attempting to stop the vehicle in a hijack scenario

      I am one of those (side effect of my work). I can assure you that none of the people sensitive to a kidnap threat would *ever* permit handing over vehicle control to a 3rd party they are unable to vet, and whom they cannot trust not to publicly broadcast and/or use their route, exact current location, destination and ETA, which is a clear risk if it involves Google. Not going to happen.

  12. Commswonk

    Not in my lifetime... or yours, probably

    Wilful interference aside I simply don't see the concept of autonomous cars working, at least not without a great deal of "upgrade" to road systems. Given there could not be a "big bang" changeover between conventional and autonomous vehicles, there would be a long period (possibly infinitely long) where the two had to coexist. Then think of traffic lights; if my autonomous car is approaching lights at red and there is a stationary car ahead of me then my car will stop. (I hope!) If, however, there is no car ahead of me how will it know (a) that there are traffic lights there, and (b) that they are on red; put simply it won't unless there is data being permanently fed to the vehicle about what is ahead; "lights ahead" _could_ be incorporated into an in - vehicle mapping system + GPS, but the state of the lights won't be. Note that we cannot dispense with the lights because of legacy, i.e. non - autonomous vehicles on the road. Of course the "lights ahead" information has to include some sort of algorithm to deal with the lights being out of action.

    Now we come to a roundabout; I must give way to traffic approaching from my right, so my car has to have some means of detecting such traffic in the "relevant" place to know it must wait. Fine; now I am driving (or my car is!) in lane 2 of a motorway, and it detects a vehicle coming up to overtake me in lane 3; how does it know I am not somewhere in a roundabout and do something which might be correct at a roundabout but which would be downright silly on a motorway.

    Or does it suddenly throw up its virtual hands, announce "does not compute captain" and cede control to me with zero warning. Now get out of that big boy...

    Some of the potential problems might well be soluble with data fed more or less continuously to my car from roadside systems, but the same datastream has to go to other vehicles to which any given bit of data may be not just irrelevant but actively incorrect.

    At the centre of all this will be a big in - car display which is less likely to read "Don't Panic" in big friendly letters than it is to read "Prepare To Meet Thy Doom". If you're very lucky you might just be able to absorb the true horror of the situation before it's lights out.

    Some of the above may sound a bit facetious, but I invite you to think about it. It is meant in all seriousness.

    1. JeffyPoooh
      Pint

      Re: Not in my lifetime... or yours, probably

      Agreed.

      "A.I. is hard."

      Every so often they take another run at trying to invent Strong AI, and they almost always fail. The naïve noobies must have missed the previous attempts over the many decades. Claude Shannon predicted Strong AI in about "15 years", ...from 1961. Fail.

      In my part of the world, it's sometimes almost impossible to determine where the road and/or lane is supposed to be. They don't bother repainting the lines until they've been totally missing for at least a year. Grey pavement against grey gravel all covered by an inch snow. Yeah. Good luck with that 'vision system' that passed the testing in California.

      1. Simon Harris

        Re: Not in my lifetime... or yours, probably

        AI is hard.

        Predicting how mischievous/evil/stupid people can be is harder.

        1. Commswonk

          Re: Not in my lifetime... or yours, probably

          Simon wrote: "Predicting how mischievous/evil/stupid people can be is harder."

          True, and yet the human eye / brain combination is able to deal with quite a high level of any or all of them, subject to sufficient driving experience. This perhaps raises the further question "would the availability of autonomous cars render driving lessons and a test irrelevant?" And of course driving an autonomous vehicle would reduce the extent of experience in hazard recognition that anyone could hope to gain.

          All this raises another point: by what percentage would the existing level of fatalities and serious injuries be reduced? Have those developing the technology made any predictions, or set any targets? Reduction to zero might be nice but at the moment it could only ever be an ambition for, er, marketing purposes. Oh dear...

    2. Named coward

      Re: Not in my lifetime... or yours, probably

      Traffic lights: the car can 'see' the lights, it doesn't just detect other cars. If it sees red it stops. If the lights are off it uses the alternate signage, if available, otherwise it uses the rules for unmarked crossing - just as a human driver would. How can a car overtaking you from the right look like a car going around a roundabout (unless the car is drifting round the roundabout but even then...)? The autonomous car must detect the direction of travel of other cars so it will know that one is coming up from behind and the other one from the side (not to mention possibly knowing when it is on a roundabout and when on a highway - be it from stored maps, or from road detection mechanisms) - again, just like a human.

      What is really difficult is purposeful mischief like fake signs, but those can confuse real drivers as well. Totally unmarked roads in heavy rain or snow are difficult to drive in for humans as well, but just as is it not insurmountable to humans it should not be for an autonomous car

      1. Commswonk

        Re: Not in my lifetime... or yours, probably

        "Traffic lights: the car can 'see' the lights, it doesn't just detect other cars. If it sees red it stops."

        Perhaps; firstly how far away does it stop, and secondly where does it look for the lights? To know how far away the lights are the vehicle really needs to be carrying data onboard that can be compared with knowledge of its own actual location. The "position" of traffic lights varies with the distance from them, and even when "at the line" the position of the lights is not necesarily defined. And how does it detect a green left filter when there are other red lights showing? IMHO for there to be any prospect of such a system working then every junction would need to have some sort of real time interaction with every vehicle in the vicinity, and every vehicle would have to know where to look for traffic lights both in location and "space". Furthermore temporary lights tend to be in a very different position w.r.t. the traffic they are there to control.

        "How can a car overtaking you from the right look like a car going around a roundabout"

        Because at some point its relationship with the car it is overtaking is going to look to the various sensors as though it is approaching the "side" of the vehicle it is overtaking. IMO the potential for the on - board electronics of one or other or both of the vehicles to become confused is simply too great. The fact that the "entry angle" to roundabouts is not a constant won't help.

  13. Florida1920
    Trollface

    Evolution

    Back in the days of police RADAR, inexpensive 10-GHz Gunn-diode oscillators led to a fun hobby called Trolling for Taillights.

    1. Anonymous Coward
      Anonymous Coward

      Re: Evolution

      Still have one in my basement.

      A door opener module that's smack dab on the police radar X-band 'field disturbance' frequency.

      1. Anonymous Coward
        Anonymous Coward

        Re: Evolution

        That's why police switched to Ka-band radars which use a different frequency (34 GHz) that required different hardware to jam. Then along came LiDAR which can be used in quick pulses that were difficult to detect before you were already measured. Because of the ways they were used (most use encoding so can beat passive jammers), active jammers for them could be detected as well and flagged as worthy of stopping in themselves (because radio jammers are against the FCC regulations and LiDAR jammers fall afoul of varying state laws).

  14. Stevie

    Bah!

    Ah, an Asshat Hack.

  15. JeffyPoooh
    Pint

    "A.I. is hard."

    Forget this -^ famous quote at your peril.

    Now, try to get your Googly-car to move past this...

    http://i2.cdn.turner.com/cnn/2010/images/09/09/c1main.illusion.preventable.ca.jpg

    1. Named coward

      Re: "A.I. is hard."

      presumably a googly-car could completely ignore that since it is only an optical illusion (no real object above the road's surface)

    2. Anonymous Coward
      Anonymous Coward

      Re: "A.I. is hard."

      Was the second picture made after she'd been hit by a Google car?

      :)

  16. Anonymous Coward
    Anonymous Coward

    Control systems

    generally if control/detection systems don't agree with each other then you would like the default to be stop what you are doing until we can check it's safe, having multiple systems with weighting and voting adds more risk, which automated vehicles are supposed to reduce.

    That said it seems these sort of hacks/spoofs would quite easily work against drivers anyway, the idiots in pickups who can't seem to turn off full lights are bad enough without deliberate attempts

    1. Anonymous Coward
      Anonymous Coward

      Re: Control systems

      generally if control/detection systems don't agree with each other then you would like the default to be stop what you are doing until we can check it's safe, having multiple systems with weighting and voting adds more risk, which automated vehicles are supposed to reduce.

      Ah, but there are perils in stopping as well. I recall a situation where my (thoroughly human) wife who had just passed her test hit an overload point because two people gave conflicting instructions and she stopped. On a roundabout. :).

      I can see this being problematic on a motorway too. Not on London's M25 where you spend most of the time standing still, but a bit further out it can still get complex. Especially on elevated sections, stopping can make you *extremely* unpopular..

  17. Petrea Mitchell
    Unhappy

    What could possibly go wrong?

    1. Autonomous cars become common in an area which depends heavily on fines for municipal revenues (e.g. St. Louis County-- https://www.washingtonpost.com/news/the-watch/wp/2014/09/03/how-st-louis-county-missouri-profits-from-poverty/ )

    2. Cars behave in predictable ways reacting to something that's invisible on cameras

    3. Profit!

    1. Anonymous Coward
      Anonymous Coward

      Re: What could possibly go wrong?

      But given how close these communities are to the Interstates, I wonder how long this lasts before they try to nail someone who's actually from the St. Louis FBI office. Nothing makes a corrupt local government official squirm like attention from the Feds (since public corruption can be charged under the Federal system where they have no control, and a conviction in this case means a reservation at Leavenworth).

  18. cd

    I want one of these for my car, will make it easier to get ahead while commuting. Or maybe the iCar will have one to disable Google cars, just download the app from the app store.

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