Okay, so it’s not a flying car in the sense we
grew up imagining, but Airbus A^3’s octocopter personal aerial vehicle, Vahana, is still quite impressive.
Utilizing
eight propellers mounted on rotating wings, Vahana is capable of vertical
take-off and horizontal flight. The landing, however, is where it gets tricky.
“Takeoff is fairly scripted,” Sanjiv Signh, the CEO of Near
Earth Autonomy — a company that makes sensors and robotic controls for aerial vehicles
like drones — told Wired. “But the
landing site may not be ready to take a vehicle. Maybe something went wrong,
and there’s already a vehicle on deck.”
That’s where Vahana’s onboard lasers and Near Earth Autonomy
technology, Peregrine, come into play. Mounted under the fuselage, it contains
lidar, inertial measurement, GPS sensors and plenty of processing power. Once
the Vahana drops below 65 feet its laser begins a three-dimensional scan,
sending data back and suggesting the best landing zone.
While PAV technology has come a long way since the
Moller M400 Skycarblunders, some industry leaders believe we’re a
long way from fully autonomous flight.
“Today you have several sensor systems which are available to
provide information on the surroundings to detect moving objects or human
forms,” says Neva Aerospace CEO Robert Vergnes. “But the software which is
going to make decisions does not yet exist.”
(Evangle Luo of TTFLY shared with you)
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