Previously I solved the Mechs vs Tanks question. Now let's move on to the next one - is stealth even possible, specifically on military aircraft?
Aircraft is usually detected at long distances by radar. Stealth aircraft has been a thing since 1980s - it uses various tricks to make it harder to detect over long distance by typically used kinds of radar, and that's effective enough.
There's been many attempts to use different kinds of radar systems to detect stealth aircraft. They're probably at least somewhat effective, but this information is not really available to anyone. Not even in the sense of being some military secret - how well Chinese detection technology can deal with US aircraft is unknown to both China and US, and likely won't be until China invades Taiwan and needs to test in it practice.
Phone cameras
However, why limit ourselves to radar? Let's do some back of an envelope calculations.
Military aircraft is about 10-15m long and wide, and moves through open space at very high speed. That's not like any natural object. Let's approximate that to 10mx10m square.
Modern consumer phones have cameras of about 100MP, or 10000x10000. If we imagine that it covers 90 FOV, then if it points at a 10km by 10km area, 10km up, each pixel covers about 1m x 1m - so aircraft will cover about 100 pixels and will be trivially detectable by even dumbest Python image recognition script, at least in daytime.
Let's assume we want to defend a big country like Iran from people fed up with its terrorism. Iran has area of 1.65 million km². As our phones each look at area 100km², spreading them so every point in the sky is seen by 10 phones at the same time - for huge redundancy, it would take just 165k phones, or at $500 each just $82m, less than one jet.
If we require lower coverage multiples, phones get better or cheaper, or we can detect enemy aircraft from less than 100 pixels, that drastically reduces the cost.
One might think that horizon would be a problem, but phones in this example are looking up, and horizon is 5km away at 2m tall pole, and 10km away at 8m tall pole.
Various terrain features like mountains are a problem for radar system - as radars are big and expensive and therefore very few. But we can cheaply install so many damn phones this problem is absolutely trivial.
Image Processing
Drones
Limitations
This approach works far better in daylight than during the night. Night isn't completely dark, so detection might be possible, but it would likely be far more expensive.
It only applies to stealth aircraft, as it flies through open and featureless skies, and it wouldn't work at all with stealth submarines, or even to ground based vehicles since ground is covered with interesting features which could obstruct view or make detection difficult.
Another obvious limitation is that this technology only covers your own country - at least with ground based phones. It won't help you at all if enemy plan is to just show up at your borders, fire some missiles, and head back home.
The whole idea is to have a lot of really cheap short range detectors to defeat stealth, but stealth can still deal with long range detection by radar.
This limitation can be somewhat overcome by deploying camera drones. Drone flying 1km up has horizon at 110km, so it could monitor aircraft approaching your airspace, but that's just a 3 minutes warning, so not exactly amazing.
Another use of this technology could be detecting enemy navy. You'd need to use long flight time drones for that due to distances required, but ships are really big and much slower than aircraft. Then again, surface stealth ships are an extremely marginal thing.
Obviously everything here is back of an envelope calculation. But people's widespread belief that stealth technology is some kind of magic really looks ridiculous to me.
2 comments:
Attenuation of energy in the visible light band means practical detection ranges are on the order of dozen of kilometers with a fairly large sensor, greatly reduced with cloud cover or at night. IR band with lower attenuation enables greater ranges and is used militarily but still much less than radar, which can have hundreds or km detection range against non-stealth aircraft. Everything involved with sensors is improving though, so things will change in time.
The possibility of optical detection also has not been overlooked with things like yehudi lights designed to counter it. (or just painting aircrafts black and operating at night) Ultimately stealth is only one feature of advanced aircraft, with speed, agility and electronic warfare capabilities maintained on top of stealth.
Right, commercially available sensors are mostly optical, and military sensors are mostly IR, but crazy increase in performance of commercial optical sensors will likely translate to IR sensors too.
It's difficult to see how any counter-measures could work. You can paint or reshape the aircraft whatever you want, but you're not going to be able to paint the exhaust.
So why wouldn't Iran just launch a lot of cheap camera drones (optical + IR + AI), and be able to detect any "stealth" aircraft from tens of kms?
This won't work for hundreds of kms (satellites likely would, and they also are getting much cheaper), but many battlefields aren't even that deep. Like Tel Aviv to Damascus is just 200 km.
Of course this is just about detection. Actually shooting down the aircraft is more complicated.
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