Peregrine falcons are nature's fastest predators, and the way they swoop down on a target may one day inspire small, visually-guided drones that can take out rogue drones, researchers said Monday.
Falcons' attack trajectories do not follow any geometric rules, contrary to popular belief, said the report in the Proceedings of the National Academy of Sciences.
Rather, the birds use their eyes to line up parallel to a moving target on final approach, much like a guided missile.
Falcons use their eyes to line up parallel to a moving target on final approach like a guided missile. /Photo via Reuters
Falcons use their eyes to line up parallel to a moving target on final approach like a guided missile. /Photo via Reuters
Researchers took to the hills of Wales to study the way falcons fly toward prey by fitting eight of the birds with video cameras and GPS devices.
"We spent four field seasons flying falcons in the Welsh hills, working with an experienced falconer and a qualified drone pilot," said co-author Caroline Brighton from Oxford University's Department of Zoology.
"It was very exciting to study these sleek, formidable aerial predators, and to watch them as they chased down our maneuvering lure towed behind a small remote-controlled airplane – then, through our computer modeling, to reveal the secret of their attack strategy."
The on-board video from falcons showed that in the last seconds before an attack, their trajectories follow a law known as proportional navigation (PN), used by visually guided missiles.
"Remarkably, it turns out that they do this in a similar way to most guided missiles," said principal investigator Graham Taylor, professor in Oxford University's department of zoology.
Falcon's attack strategy could be adapted for use in small drones. /Photo via Reuters
Falcon's attack strategy could be adapted for use in small drones. /Photo via Reuters
"Our next step is to apply this research to designing a new kind of visually guided drone, able to remove rogue drones safely from the vicinity of airports, prisons and other no-fly zones."
Since the falcons move slower than missiles, researchers believe this strategy could be adapted for use in small drones designed to remove other drones from protected airspace, a growing problem around the world.
"This method does not require any information on a target's speed or distance, instead relying simply on information about the rotation of the attacker's line of sight to the target," said the report.
The study was funded by the US Air Force Research Laboratory.
Source(s): AFP