Comment by icegreentea2
9 days ago
Roughly everyone expects the 6th generation fighters (the ones currently in development like F-47) to be the last manned generation. Most observers expect many/most 6th gen fighters to become optionally manned within their life span.
The real question is basically - is full autonomy both technically possible and culturally/politically acceptable within 5, 10, or 20 years? Because full autonomy isn't really ready now (or else we wouldn't need hundreds to thousands of drone operators in the Ukraine war). And at least the USAF doesn't think remote control will let them do what they need (which is to fly from Japan to Korea or Taiwan, or Philippines to Taiwan, and contest/control the skies in the face of a basically peer adversary).
Because no one knows that answer, everyone (governments, militaries, manufacturers) is hedging, and CCA is part of that hedge.
I think we are underestimating and/or forgetting that the enemy gets a vote, and remote piloting something from Virginia all the way out to Japan or Korea or Taiwan involves many signals integrity steps along the way. This is to say that you should assume these signals are interrupted and you will not be able to maintain continuous control of the aircraft from whatever datacenter box the "pilot" sits in. That means fully autonomous decision making, functionally for the entire journey, and independent release authorization.
>or else we wouldn't need hundreds to thousands of drone operators in the Ukraine war
I don't think this is the reason the systems are not fully autonomous right now ("fully autonomous" here meaning that they can complete the kill chain independently, no HITL). Even if we assume it true that the drones are not "good enough" to be at parity with a human operator, if you had an essentially limitless amount of them, would you really waste the manpower on operating them in FPV mode? You would not, you would completely saturate the battlefield with them. Thus, as it was in the beforetimes and ever shall be, logistics wins wars.
The reason that FPV drones are so easily disrupted is that they are too light to carry anything more than a radio and fly low.
Disrupting the signal for a normal-sized aircraft is much harder. If you're flying at 10s of thousands of feet and have a line of sight to multiple satellites it's going to take some serious weaponry to disrupt that.
True. But the next rung up the escalation ladder is of course disrupting the satellites.
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Latest FPV drones in Ukraine became much more resistant to electronic countermeasures. Plus other drones are used as retranslators.
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> This is to say that you should assume these signals are interrupted and you will not be able to maintain continuous control of the aircraft from whatever datacenter box the "pilot" sits in. That means fully autonomous decision making, functionally for the entire journey, and independent release authorization.
Only if every mission is absolutely critical. If disruptions are rare then you don't need autonomy.
Or more interestingly with the low-earth sat/data network. Seeing as projectssuch as starlink are basically mil in nature with a side of barely profitable civilian use. The whole data centers in space makes more sense. These are not for running cat blogs and video streaming , which is waht they are/will be marketed as. Realworld application will always be a command and control node spanning the globe for the mil use. And as its rolloed out globally can basically provide jammingfree links for the autonomous commands from space.
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FPV drones cannot have powerful GPU yet to enable truly autonomous flight. And the issue is not only weight/energy restrictions, but also cost.
Autonomous flight is significantly easier than autonomous driving. You just fly between points in space, and there's nothing but air inbetween. The ground control handles most of collision avoidance, and if that's not available, it's easily achieved by moving 300ft/100m up or down.
True, but take into account that plants need to be able to fly/fight with instruments only and without vision.
Also dogfights are much rarer now, most people just fling rockets at each other (so you know how much these cost, a b200 seems cheap in comparison)
You don't need a super powerful GPU to do computer vision. There are cheap small devices that can do it.
>Roughly everyone expects the 6th generation fighters (the ones currently in development like F-47) to be the last manned generation. Most observers expect many/most 6th gen fighters to become optionally manned within their life span.
The said that about the 5th though. Like I've personally talked to people who were actively working on the F35 and they were saying "last manned aircraft" in like 2011ish.
I expect autonomy to be a long steady improvement of taking on additional subroutines of increasing complexity of decisions being made along the way. Fly here, land there, kill that, go over there without being detected, etc, etc, until humans are making only a select set of decisions that will probably be randomly sprinkled at the high and low levels.
Kind of like how when we build a brick wall the "vision" and the actual laying of bricks still get done by human but all the intermediary steps are drudgery that can be trivially automated (not to say they are all automated, just that they could be if labor $$ vs software $$ penciled out that way)
Yeah, I remember thinking that about the 5th gen myself. But I think part of that way unclarity around when the 6th gen would appear. 2011ish would be a weird timeframe.
Obama didn't announce the "pivot to Asia" until 2012. A lot of the world was still believing in the whole unipolar moment thing. The F-35 hadn't even started training squadrons in service yet. 6th generation probably felt really far away. 2016 onwards has been a major acceleration in all sorts of ways.
In my eyes, 6th generation was really ignited by the focus on China. The PCA/NGAD/F-47 was first out the gate, and really set the tempo and got everyone else going.
I agree with your estimation of the likely development path. I expect that approach to merge/converge from the other direction - I expect there to also be a parallel path of fully autonomous systems growing to occupy ever greater mission sets. Imagine telling a drone "I need an ELINT mission in the area and timeframe" (and it plans its own launch time, flight route, calculates fuel loads, communicates with ground staff), or "I need you to airdrop this supply pallet".
I don't think there's a way that the 6th generation will be manned.
> And at least the USAF doesn't think remote control will let them do what they need (which is to fly from Japan to Korea or Taiwan, or Philippines to Taiwan, and contest/control the skies in the face of a basically peer adversary).
I mean, they wouldn't think that, would they? It would put their pilots out of a job. But most flying has been done by autopilot long before AI, and even if/when you need a human in the loop, why would you want to put that human in the cockpit rather than safely in Virginia?