Unit cost for a lot of these seems to be under ~$5K USD, not counting the value of engineering time.
How do you counter a swarm of these things coming from all directions?
This kind of weapon has interesting consequences for public speaking events by leaders. Or large industrial projects on the coast of Texas that use large tanks of compressed methane and LOX.
This seems like the kind of thing that you can send in the mail to another country in a special box that can open up when it senses that it has arrived at a destination so the drone can fly off to get into position for an attack by hiding itself in some nook on the roof of some nearby industrial building.
Put a small solar panel on it so that it can sit indefinitely, waiting for the signal to strike a target.
Or put a dozen or so of them on an unmanned surface vehicle like the Ukrainians did and send them out to a juicy port target.
The biggest threat that a weapon like this poses isn't just from the initial destructive capacity, it comes from the possible difficulty in attributing the source of the attack.
How do you respond to this kind of weapon you don't know who used it against you?
Cost, your average stinger cost 38000 dollars in the 80s. I am guessing here but they are aiming at a price of probably under 10000 dollars.
Now why doesn't anyone take a rocket and stick the drone guidance on it? Again I am only guessing here, the drone guidance components probably can't cope with 2-3 mach. At 1000 meters per second with a 60 fps camera you advance 16.6 meters per frame, add to that the latency of whatever guidance system you have. You are looking at 20-30 meters offset between frames.
Better guidance probably balloons the cost to the 10s of thousands of dollars.
Oh and probably loiter time, the rocket is you shoot and it's gone. The interceptor may have enough battery to fly around for a few minutes looking for the next one if its target is downed by something else. Plus you can probably recover these if they miss. This is all very speculative though.
Anyone can build this style of interceptor with commercial off the shelf parts for a a few thousand dollars. It's also reusable.
A rocket for the same budget will be unguided and single use. Not useable as an interceptor.
Speed is only part of the story, but probably the part that can sell the capability of drones today.
How good are they at intercepting another maneuverable aircraft either autonomously or FPV? At what speed is the drone starting to be limited by the human pilot relying on a camera feed?
Not even close to the manhole cover speed record.
There are amateurs chasing the speed record using similar designs too: https://www.youtube.com/results?search_query=world%27s%20fas...
Unit cost for a lot of these seems to be under ~$5K USD, not counting the value of engineering time.
How do you counter a swarm of these things coming from all directions?
This kind of weapon has interesting consequences for public speaking events by leaders. Or large industrial projects on the coast of Texas that use large tanks of compressed methane and LOX.
This seems like the kind of thing that you can send in the mail to another country in a special box that can open up when it senses that it has arrived at a destination so the drone can fly off to get into position for an attack by hiding itself in some nook on the roof of some nearby industrial building.
Put a small solar panel on it so that it can sit indefinitely, waiting for the signal to strike a target.
Or put a dozen or so of them on an unmanned surface vehicle like the Ukrainians did and send them out to a juicy port target.
The biggest threat that a weapon like this poses isn't just from the initial destructive capacity, it comes from the possible difficulty in attributing the source of the attack.
How do you respond to this kind of weapon you don't know who used it against you?
But why?? We have had rocket powered anti-aircraft interceptor drones that go at mach 3 since 1955.
Cost, your average stinger cost 38000 dollars in the 80s. I am guessing here but they are aiming at a price of probably under 10000 dollars.
Now why doesn't anyone take a rocket and stick the drone guidance on it? Again I am only guessing here, the drone guidance components probably can't cope with 2-3 mach. At 1000 meters per second with a 60 fps camera you advance 16.6 meters per frame, add to that the latency of whatever guidance system you have. You are looking at 20-30 meters offset between frames.
Better guidance probably balloons the cost to the 10s of thousands of dollars.
Oh and probably loiter time, the rocket is you shoot and it's gone. The interceptor may have enough battery to fly around for a few minutes looking for the next one if its target is downed by something else. Plus you can probably recover these if they miss. This is all very speculative though.
Anyone can build this style of interceptor with commercial off the shelf parts for a a few thousand dollars. It's also reusable. A rocket for the same budget will be unguided and single use. Not useable as an interceptor.
Maneuverability and cost. Why this specific stunt? Marketing, presumably.
Maneuverability not so much modern AA missiles can pull over 60gs. That capability costs 100s of thousands of dollars though.
Speed is only part of the story, but probably the part that can sell the capability of drones today.
How good are they at intercepting another maneuverable aircraft either autonomously or FPV? At what speed is the drone starting to be limited by the human pilot relying on a camera feed?
Speed is really important because at these speeds they can probably intercept drones flying with low cost jet engines. So it adds a huge capability.
still 100 mph less than piston-powered airplane speed record. Or 150 less than Tu95. Drones should be able to go that fast too
Maybe, but the budget for an interceptor drone is much much smaller. Unless it fails at its job an interceptor drone is only going to be used once.
Yeah, big 'ol asterisks in this "world air speed record". This is for electric-powered flight, and is equivalent to 57% of Mach-1.