LIFT Aircraft Unveils Personal Multirotor Aircraft for Experiential Entertainment
No pilot's license, no problem – founder Matt Chasen says that LIFT's model of allowing the public to fly ultralight, electric, vertical takeoff and landing aircraft for recreational purposes is a necessary step for the nascent eVTOL industry before it’s ready for commercial transportation.
Matt Chasen, founder of the online shipping marketplace company uShip , has entered the personal air mobility industry with a new venture called LIFT Aircraft . The Austin, Texas-based company is launching the world’s first experiential entertainment business leveraging eVTOL aircraft.
LIFT has developed an electric, vertical takeoff and landing (eVTOL) aircraft called “ Hexa ” and plans to open LIFT locations in scenic and uncongested areas near major metro areas, tourist destinations, and entertainment hubs where individuals can rent and operate Hexa aircraft without a pilot's license.
Hexa circumvents the pilot’s license requirement by qualifying as a powered ultralight under Federal Aviation Administration (FAA) definitions. The aircraft – weighing only 432 pounds – resembles a large hobbyist drone with 18 sets of propellers, motors, and batteries with a single-seat, semi-enclosed cockpit.
After training in LIFT virtual reality simulators, the company says anyone over the age of 18 and under six and a half feet tall and 250 pounds will be able to fly Hexa aircraft for up to 15 minutes at a time.
“Flying is probably the oldest and most enduring of human aspirations. Personal aviation is available today but it’s only accessible to the lucky few with the money, time and skill to get the extensive training needed to fly traditional aircraft. At LIFT, we’re making flying so simple, safe, and inexpensive that anyone can do it with very little skill or special training. We’re truly “consumerizing” flying for the first time in history,” says Chasen.
“LIFT is doing for flying what iFLY does for skydiving – making an expensive and inaccessible experience available to everyone,” according to Alan Metni, the founder of iFLY Indoor Skydiving .
Like other electric multirotor aircraft prototypes in the market, Hexa flies using distributed electric propulsion (DEP), which allows an aircraft to be controlled simply by varying the speed of multiple electric motors – a task accomplished by flight control computers.
“The pilot is not flying the aircraft in the sense of traditional helicopters and fixed wing airplanes” says Colin Guinn, a drone industry pioneer who has held leadership roles at DJI , 3D Robotics , and Hangar Technology . “With DEP aircraft, like with drones, the flight computer is keeping the aircraft stabilized and the pilot merely provides control inputs using a joystick”
Chasen believes that modern drone technology and autonomy can be used to make flying ten-times safer than with today’s general aviation aircraft. “The vast majority of accidents are the result of pilot error – running out of fuel, controlled flight into terrain, flying in bad weather, etc.” Hexa is semi-autonomous so, regardless of what the pilot does, it will only fly in a safe manner within the limits programmed into the autopilot computer.
“Autonomy is actually much easier in the air than for cars on the ground – there are far fewer obstacles, no roads, no traffic lights, and you have three dimensions to move around [in],” says Chasen. “For example, the aircraft is continuously calculating the energy required to “return to home” based altitude, wind speed, and direction. Regardless of what the pilot does, the aircraft will automatically return and land when the battery approaches this level plus a reserve, and it can also automatically land in designated safe landing areas, if necessary.”
Hexa can even fly with as few of 12 of its 18 propulsors, has a ballistic parachute that autonomously deploys in the event of an emergency, has five floatation devices to safely land on water, and can be controlled remotely by LIFT trained safety pilots in the event of an emergency.
“LIFT’s safety will come not just from the simplicity and redundancy of the design, but also from the fact that flights will take place in very controlled environments – 3D-mapped areas where on-board sensors and ground-based radars can track every aircraft and obstruction. And flights will only take place in good weather conditions,” says Charlie Justiz, the former Chief of Aviation Safety at NASA .
Chasen and his international team of designers, engineers and flight technicians have been busy – in just the last year and a half they have designed, prototyped, manufactured, assembled, and tested their first production design aircraft. After four months of unmanned flight testing, Chasen flew Hexa for the first time last month and says, “It was an absolutely thrilling experience – I think it will be the most exciting thing that most people do in their entire lives.”
Chasen thinks leveraging ultralight eVTOL aircraft for recreational flying is a necessary step for the nascent eVTOL industry before it’s ready for commercial transportation. “Multi-seat eVTOL air taxis, especially those that are designed to transition to wing-borne flight, are probably 10 years away and will require new regulations and significant advances in battery technology to be practical and safe.”
Read more: Personal air transport drives need for advanced VTOL technologies, standards
Hexa’s “pure hover” design with high-placed rotors like a traditional helicopter was a result of Chasen’s desire to develop an aircraft that is safe, stable, and can fly using technology that exists today. “We didn’t want to wait for major technology or regulatory breakthroughs to start flying.”
Companies ranging from small startups to aerospace giants like Boeing and Airbus are pursuing opportunities in this new eVTOL industry, including Uber – who is developing an air taxi service. “What’s unique about what we’re doing is that we’ll be flying years before anyone else – in fact, starting today, we’re letting people join our waitlist for flights in 25 cities and will open up locations based on where we get the most demand.”
William Kucinski is content editor at SAE International, Aerospace Products Group in Warrendale, Pa. Previously, he worked as a writer at the NASA Safety Center in Cleveland, Ohio and was responsible for writing the agency’s System Failure Case Studies. His interests include literally anything that has to do with space, past and present military aircraft, and propulsion technology.
Contact him regarding any article or collaboration ideas by e-mail at
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