NAVY Looks into Prototype-Technology Evaluation Research Aircraft

Original Article: AeroTechNews

Looking to make a plane that was able to take off and land at airports with shorter runways, in the mid-2000s NASA began experimenting with the circulation control wing concept.

Using increased amounts of high-pressure air over the leading and trailing edges of the wings, supplied either by the jet engines or separate compressors, aircraft using this technology have greater lift. That enables them to take off and land at a lower speed, permitting a shorter runway.

To test the innovation, Armstrong Flight Research Center put out a call in 2006 through the Small Business Innovation Research program for an unmanned, sub-scale test aircraft that could be equipped with such wings.

Kennesaw, Ga.,-based Area-I Inc., which specializes in the development of autonomous aircraft, won the contract and delivered the aircraft to Armstrong in 2011.

One plane to rule them all
Fortuitously, the aircraft that Area-I developed for NASA was highly adaptable. So when Armstrong put out a call for another research aircraft, this time a model akin to a medium-range, narrow-body, twinjet airliner, Area-I was awarded funding.

And when Langley Research Center solicited proposals for a sub-scale airplane with a T-tail empennage — a feature that gives aircraft more severe stall characteristics — with a rear-engine mount to improve stall recovery, Area-I applied for and received SBIR funding yet again.

The company won both contracts by reconfiguring its original NASA-funded, baseline aircraft, which it named the Prototype-Technology Evaluation Research Aircraft, or PTERA.

“The unforeseen genius of the aircraft was that we inadvertently designed a platform that was reconfigurable,” says Nick Alley, Area-I’s CEO. “We could, for a minimal amount of effort, … put a different type of wing on it or do a whole bunch of other things as needed.”

The model built for Armstrong is 10 percent the size of its commercial counterpart, while Langley’s plane, called the PTERA GMA-TT (for Generic Modular Aircraft T-Tail), is about 16 percent of the full-scale version. A PTERA model costs about $250,000, a fraction of the millions needed to buy other unmanned model aircraft.

Area-I Inc. photograph

An aircraft with a T-tail empennage in normal flight (top) versus one in a deep stall condition (bottom). One of NASA Langley Research Center’s goals for its PTERA Generic Modular Aircraft T-Tail, or GMA-TT, is to flight-test stalls and recovery maneuvers to improve simulators used for pilot training.