How to Make an Invisible Drone
There are many words that I would never, ever use to describe a drone. Whatever the opposite of obnoxious is. Much of this is because of the giant angry bee sound that drones tend to make, but it's also the way that they look in flight: With uncannily linear movements and an even less canny ability to hover perfectly still, they tend to draw the eye as affronts to nature.
Key Takeaways
- demonstrated a drone called Phantom Twist that is essentially invisible to humans, being an order of magnitude more difficult to see in flight than a typical quadrotor.
They accomplished this with the aid of computational design, and while the resulting hardware is, I would argue, also an order of magnitude more of an affront to nature than a typical quadrotor represents, it's pretty amazing how well it works.
- Human eyes take some amount of time (typically about 100ms) to integrate what we see before sending the full scene off to our brains for processing.
Moving objects can cause problems for this system, because if the movement is fast enough, our eyes are forced to average that motion across the scene, combining it with whatever is in the background and resulting in a transparent blur.
- What makes Phantom Twist unique, and also very odd, is that the design was computationally optimized for low visibility.
Controlling how drones like this fly Before we get into that, though, a quick note about how drones like this can even fly controllably, because it's not at all obvious.
- The research robot also includes optical tracking tags.
Michael Rubenstein/Northwestern University The bits that you need for this kind of drone include the motor and propeller, a couple of batteries, a controller, some counterweights (which could be replaced with more batteries or payload), 0.
- " The visibility (or not) of Phantom Twist is primarily driven by the extent to which different components line up with each other from the perspective of someone looking at the drone.

In a paper presented this week at RSS 2026 in Sydney, roboticists from Northwestern University, Evanston, Ill. demonstrated a drone called Phantom Twist that is essentially invisible to humans, being an order of magnitude more difficult to see in flight than a typical quadrotor. They accomplished this with the aid of computational design, and while the resulting hardware is, I would argue, also an order of magnitude more of an affront to nature than a typical quadrotor represents, it's pretty amazing how well it works.
Phantom Twist spins so fast, it's practically invisible. Michael Rubenstein/Northwestern University The trick here is easy to see, even if the drone isn't. By spinning in flight at between 15 and 25 Hz, Phantom Twist takes advantage of humans' decidedly mediocre visual system to turn a solid spinning object into an opaque smear.
Human eyes take some amount of time (typically about 100ms) to integrate what we see before sending the full scene off to our brains for processing. Moving objects can cause problems for this system, because if the movement is fast enough, our eyes are forced to average that motion across the scene, combining it with whatever is in the background and resulting in a transparent blur. This effect is called 'persistence of vision.
For more details please read the original article at IEEE Spectrum AI.
Continue Learning
Comments
Sign in to join the conversation