I’ve seen the number of induction coils increase drastically over the years in The Netherlands. They are quite easily recognizable, as there’s typically a solar panel on a pole, that appears to provide power to the system.
Considering there’s a wide variety of vehicles on the road, surely each variant must have (slightly) different characteristics when passing over the coil; especially when in a specific place at a specific time.
And given that they are situated at highway exits (see picture) or after entrances, and road users unable to exit and enter elsewhere, it would be trivial to track the bulk of a vehicle’s trip.
This in context of ALPRs (in different forms) being in place at strategical locations (large junctions or at bridges or tunnels, and parking), and the address of vehicle’s owner; you’d be able to connect the dots, and end up with a pretty complete picture.
The readings will have an extremely low signal to noise ratio, at best you coils differentiate a truck from car by length of the pulse, but with speed already being ±30% variability any small difference in cars inherent properties (size in length or amount of metal) would quickly be reduced to nothing. Then for every make and model you have thousands of cars already, I don’t see how you could possibly differentiate between those even in theory.
As someone who works in industrial automation, you’re completely going overboard with this.
I can almost guarantee that this goes to a pulse counter. Car drives over, induction coil gets activated and a pulse is output to a counter.
The sheer cost of putting in a PLC to get the high sample rate required to analyse a car is enough to make it extremely unlikely. Not to mention the requirements and costs of the sensor go way way up.
It’s just an automated counter, nothing more.
Adding to that: While each individual car would have a slightly different inductance value, the car’s body is not the only factor.
You’d need to also account for car speed, air humidity, environment temperature, whether the car passes perfectly on the coil or slightly off to the left or right.
Too many variables to account for
I wonder how financially constrained a nation state is, where such projects typically follow a public tender process; the scale of the project could by itself, or maybe in coordination with other nation states, benefit from economy of scale; and where prices for components have increased sharply over the years. Other than that, perhaps you could have dedicated sampling hardware, which is able to convert the stream, to one manageable to an off-the-shelf PLC; which might not do any complicated processing on-edge, but instead transfer the data to a data center for further processing. But I have no expertise in the field, so I could be completely and utterly wrong.
As a person who has some expertise in a related field, let me explain:
If the covered area represent coils, those coils are not appropriately sized or positioned to detect differences from car to car. They are appropriately sized to do what the other poster said and provide a presence input that can be used to feedback into a traffic control system or a simple counter to analyze road use.
A current is induced in a coil when a ferrous material is vibrated near it or when an electric current flows near it. The frequency, intensity and wave shape of the current is directly proportional to the movement of the ferrous material or flowing current. The degree to which the current is induced is modified by coupling strength and the structure of the coil.
A coil that size would be really bad for receiving induced currents that reflect various relatively small ferrous moving parts like pistons and wheels whose particular signatures could be used to identify a vehicle and also bad for receiving induced currents that reflect electrical activity which could also be used to identify a vehicle.
It is the right size for receiving induced currents that indicate a large ferrous object like a car has passed near it.
Which is of course what a coil like that is used for in civil engineering.
I imagine that this is for traffic statistics and modeling, and isn’t able to distinguish between different models of car
It’s undoubtedly used for that too, but similar to cameras supposedly limited to traffic analysis, this system could also double as surveillance infrastructure. The readings might vary per vehicle passing over the coils: different concentrations of metal at different positions, the duration of a vehicle within range (which could be an indicator for length, speed, or both), etc. Measure these characteristics at many points along the way, while reading vehicle license plates at strategic locations, and it seems you’d have a pretty robust surveillance concept.
not very well though, while the raw data can vary car to car, they only use a simple vehicle detection count, and they could technically distinguish between large trucks, trailers, busses and family cars, but not very well and it would be based on signal duration so the traffic flow speed would have to be known too. A small electric car might have a similar signature to a large diesel truck just based on the inductive mass, and a hatchback could have the same signal duration as a bus if it’s in traffic.
There’s no useful data there for deeper analysis or correlation other than “hmm, road use is up in this area, increase road maintenance there in the next budget” or, “hmm, that intersection upgrade downstream has caused more traffic than predicted upstream”, or “hmm, the timing on these fixed intersection lights need to be re-assessed or upgraded to automatic lights”

If they wanted to track car movements, they’d just use ALPR like everyone else
ALPRs are controversial, and governments know it. This concept would however be abstract enough for most (even around here it seems) , while effectively accomplishing the same.
This is just traffic monitoring, it’s been around literary for longer than you probably have been alive and its just counting cars, nothing nefarious. It helps with road designs
Cameras have also been around longer than I’ve been alive, but they are no longer recording on looping tapes either: their output is increasingly analyzed by automated systems, and the same could definitely apply to these.
It’s not the cameras that are tracking you, it’s the machine vision that reads licence plates, and that has not been around longer than you’ve been alive.
All these loops can detect is if a massive chunk of metal moves over them, no PII. Knowing how many cars use a road is critical in knowing if a road is congested or not, and that helps make roads better for everyone. It’s not part of the surveillance machine. This kind of sensor is no more nefarious than the 100 year old sensor in your toilet that stops filling the tank when it is full.
Take your tinfoil hat off.
It’s not the cameras that are tracking you, it’s the machine vision that reads licence plates, and that has not been around longer than you’ve been alive.
Nothing in this statement contradicts anything I’ve said.
As for the other statements, it provides no real counterarguments as to why it cannot work. Just a few years ago there weren’t nearly as many of these sensors, and roads were perfectly functional too. Just substantiate how you can so definitively state that. And that “sensor” in my toilet is just a floater mechanically connected to a valve, so I don’t know how that compares.
Take another shot.
Modern cars and the devices people carry in them emit all kinds of identifying information constantly. There are off the shelf boxes available to collect this information from every car/truck as it passes. No need to get fancy with induction coils if tracking is your goal.
My understanding is the coils are really used for measuring the flow of traffic.
There’s a lot of older cars on the road (including mine), and I’m typically not carrying any devices on me. I’ve read some articles that discuss such technologies, but there’s no clear indicators of them being around roads I’m utilizing; not to the extend of these induction coils for example. Cameras installed with the supposed intent of monitoring traffic, are also increasingly used in criminal investigations; so it’s not unthinkable data from these sensors might be approached similarly.
In the US at least, these are generally for monitoring traffic, both current congestion conditions and total traffic over time for planning repairs and changes to traffic pattens. This is the same basic technology that has been used at traffic lights for ages to determine if a car is waiting for the light.
It’s highly unlikely they could track an individual vehicle. These can measure the approximate mass of the metal in the vehicle, but not to a specific enough measure that it would be able to determine the difference between similarly sized models of vehicles, much less a specific vehicle. Mostly they just measure to make sure they’re detecting a vehicle vs metal trash or something that might be on the road. They are more sophisticated and lower cost to install and power than they used to be which is why they can now be used on moving vehicles vs previous iterations that only really worked for stopped vehicles near existing power infrastructure like a traffic light. But that’s about it.
All this detects is large masses of metal moving over it.
It’s used a lot in my area to trigger traffic lights (and annoying if you’re on a motorcycle).Yes… Been standing in front of a red light for 15 minutes today. Until a car got behind me 😫
I’m forced to bike in the road with my acoustic bike so I feel your pain.
Masses of metal that vary per vehicle, and could therefore result into different characteristics measured. I understand they are also used at traffic signals, but these are nowhere near any such infrastructure.
This will not be able to differentiate if it was VW hatchback A that entered the highway at ramp Z or Peugeot hatchback B entering from ramp X. It also cannot tell a VW up from a Skoda CitiGo or any of the bazillion similar design and mass vehicles between different brands and models. This is completely useless as a surveillance technology there are way too many variables introducing noise that you don’t have the ability to filter on because signatures will be way too similar between thousands of vehicles using hundreds of on/off ramps.
Must be the lizzard then, it’s the only explanation.
This is not the high tech you think it is.
It would be too inaccurate to fingerprint a specific vehicle based on the waveform generated as it drives over a coil sensor like this. For example, if your car drives over it one day and then drives over the same coil but 20cm to the left, the waveforms would be different enough already that they couldn’t be statistically correlated. A large truck driving over an edge could look like a small car driving directly through the middle. These kinds of sensors are really only useful for saying a big chunk of ferromagnetic something passed by.
or even if you just have different number of passangers/items you are carrying
That is in a vacuum, but with ALPRs at strategic points, it’s possible to connect the license plate to a series of readings along the way, and would similarly allow correlation to prior trips (be it with a slightly different characteristic that day). As there’s many readings along the way, it should also be possible to filter out large inconsistencies; or with some clever machine learning algorithms, be possible to correlate such inconsistencies with reasonable certainty. Unless multiple cars, that consistently drive head-to-tail the entire trip, create a reading similar to a truck (also with regards to speed), I think it’s quite easy to discern the two categories. On the highway itself each lane has its own coil, so even if a truck had space to drive over the edge of another coil, the primary coil would also be significantly affected. Even the simplest of metal detectors can modulate output based on induction (the beep changing in pitch), so why would recent (~2019) specialty equipment only be able to output a boolean value?
Is it possible they are pressure plates for monitoring traffic, with a view to controlling traffic signals etc.
As opposed to the coils (some sort of charging thing for EVs)?
Induction coils are triggered when a car drives over them, completing the circuit.
No point charging an EV for the split second it’s driving over the coil.
The easier explanation would just be counting vehicles for traffic statistics and management.
It would be easier, but might not be the full picture.
Unless you’re driving a vehicle from the 20th century, the car itself is going to be tracking significantly more information than even the most nefarious possible use of something in the picture.
If you got some more information on techniques used in these vehicles, that would be useful, or even deserving of a dedicated post and discussion.
The gained advantage in your theory lies in drivers being unaware that they’re being “scanned.” They are not doing a great job at hiding this then, are they. A motorcycle could evade this all together, a car might also be able. And the solar panel could better be used to power a camera and/or a license plate reader if they wanted to know who is passing.
I’m sure if we put enough lab coats on the task they can come up with a system that can ID a model by the reaction in the coil. But at what cost? A light switch is cheap. A light switch that can tell who is using it surely isn’t. And why go to this length and not just do the cameras? Ockham’s razor.
Why would anyone use induction coils for tracking when TPMS transponder tracking is cheaper, easier, and less visible?
Even assuming there’s a way to uniquely identify vehicles based on their induction signature, digging up roads seems like a literally unbelievable amount of work by comparison.
If I had to guess there is probably a traffic light at the end of that off ramp. They’re probably checking traffic patterns to determine the timing of the lights for high traffic times.
The solar panel suggest this device is not connected to anything, if it is connected to a traffic light it can share its power source.
This device just stores the number of cars passed in its onboard storage which will be retrieved later
I didn’t say it was connected. I said it was helping them adjust the timers for the light. Many lights in my area aren’t controlled by active sensors.
No, they are also at places where there isn’t any traffic signals nearby.
Then it’s probably a sensor to help plan road repair and development. They want to know how many cars are rolling through to budget accordingly.
Still not a privacy/freedom invasion, since the generated data is only useful for statistics. Except if the govt. requires you to add a RFID chip to your car soon.
And if it tracks your chips it wouldn’t even need the sensor on the road








