Military Embedded Systems

Unmanned DARPA VTOL X-Plane contract won by Aurora Flight Sciences

News

March 04, 2016

John M. McHale III

Editorial Director

Military Embedded Systems

Unmanned DARPA VTOL X-Plane contract won by Aurora Flight Sciences

ARLINGTON, Virginia. Officials at the Defense Advanced Research Projects Agency (DARPA) awarded a vertical takeoff and landing (VTOL) Phase 2 contract to Aurora Flight Sciences for the unmanned VTOL Experimental Plane (VTOL X-Plane). The program looks to overcome the challenge of increasing top speeds in VTOL aircraft without sacrificing range and efficiency.

They are looking to do that via innovative cross-pollination between fixed-wing and rotary-wing technologies and by developing and integrating novel subsystems to enable radical improvements in vertical and cruising flight capabilities, according to a DARPA release. I

 

“Just when we thought it had all been done before, the Aurora team found room for invention—truly new elements of engineering and technology that show enormous promise for demonstration on actual flight vehicles,” says Ashish Bagai, DARPA program manager. “This is an extremely novel approach,” Bagai said of the selected design. “It will be very challenging to demonstrate, but it has the potential to move the technology needle the farthest and provide some of the greatest spinoff opportunities for other vertical flight and aviation products.”

VTOL X-Plane seeks to develop a technology demonstrator that could:

- Reach a top sustained flight speed of 300 kt to 400 kt
- Increase aircraft hover efficiency from 60 percent to at least 75 percent
- Present a more favorable cruise lift-to-drag ratio of at least 10, up from 5-6
- Carry a useful load of at least 40 percent of the vehicle’s projected gross weight of 10,000-12,000 pounds

Aurora’s VTOL X-Plane design creates an unmanned aircraft with two large rear wings and two smaller front canards—short winglets mounted near the nose of the aircraft. A turboshaft engine—one used in V-22 Osprey tiltrotor aircraft—mounted in the fuselage would provide 3 megawatts (4,000 horsepower) of electrical power, which is the equivalent of an average commercial wind turbine. The engine would then drive 24 ducted fans, nine integrated into each wing and three inside each canard. Both the wings and the canards would rotate to direct fan thrust as needed: rearward for forward flight, downward for hovering and at angles during transition between the two.

The design portends an aircraft that could fly fast and far, hover when needed, and accomplish diverse missions without needing prepared landing areas. While the technology demonstrator would be unmanned, the technologies that VTOL X-Plane intends to develop could apply equally well to manned aircraft. The program has the goal of performing flight tests in the 2018 timeframe.

Aurora’s design is made possible via advances in fields such as air vehicle and aeromechanics design and testing, adaptive and reconfigurable control systems, and highly integrated designs. It would also be impossible with the classical mechanical drive systems used in today’s vertical lift aircraft, Bagai says.

The Phase 2 design addresses many longstanding technical obstacles, the biggest of which is that the design characteristics that enable good hovering capabilities are completely different from those that enable fast forward flight, according to the DARPA release.

Design advances to be included in the technology demonstrator are:

- Electric power generation and distribution systems to enable multiple fans and transmission-agnostic air vehicle designs
- Modularized, cellular aerodynamic wing design with integrated propulsion to enable the wings to perform efficiently in forward flight, hover and when transitioning between them
- Overactuated flight control systems that could change the thrust of each fan to increase maneuverability and efficiency

“This VTOL X-plane won’t be in volume production in the next few years but is important for the future capabilities it could enable,” Bagai says. “Imagine electric aircraft that are more quiet, fuel-efficient and adaptable and are capable of runway-independent operations. We want to open up whole new design and mission spaces freed from prior constraints, and enable new VTOL aircraft systems and subsystems.”

 

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