This website uses cookies to manage authentication, navigation, and other functions. By using our website, you agree that we can place these types of cookies on your device.

Boeing Phantom Eye unmanned aircraft system has completed taxi testing 1202131

a
World Aviation Industry News - Boeing
 
 
Boeing Phantom Eye unmanned aircraft system has completed taxi testing.
 

Boeing's [NYSE: BA] liquid hydrogen-powered Phantom Eye unmanned aircraft system has completed taxi testing at Edwards Air Force Base in California as it progresses toward its second flight. During the testing, which occurred Feb. 6, the Phantom Eye demonstrator aircraft sitting atop its launch cart reached speeds up to 40 knots, or approximately 46 miles per hour.

     
Boeing's [NYSE: BA] liquid hydrogen-powered Phantom Eye unmanned aircraft system has completed taxi testing at Edwards Air Force Base in California as it progresses toward its second flight. During the testing, which occurred Feb. 6, the Phantom Eye demonstrator aircraft sitting atop its launch cart reached speeds up to 40 knots, or approximately 46 miles per hour.
Boeing's [NYSE: BA] liquid hydrogen-powered Phantom Eye unmanned aircraft system has completed taxi testing at Edwards Air Force Base in California as it progresses toward its second flight. (Credit photo Boeing)

     

The Phantom Eye team has also completed software and hardware upgrades to prepare for flying at higher altitudes.

"We upgraded the autonomous flight systems and have achieved all the required test points in preparation for the next flight," said Drew Mallow, Phantom Eye program manager.

Additionally, the team improved the aircraft’s landing system following Phantom Eye's first flight, when the landing gear dug into the Edwards lakebed and broke.

"We've drawn on Boeing’s experience to come up with a solution, using our tactical fighter aircraft landing systems as an example," said Brad Shaw, Phantom Eye chief engineer.

Phantom Eye's innovative and environmentally responsible liquid-hydrogen propulsion system will allow the aircraft to stay on station for up to four days while providing persistent monitoring over large areas at a ceiling of up to 65,000 feet, creating only water as a byproduct. The demonstrator, with its 150-foot wingspan, is capable of carrying a 450-pound payload. Its first flight, in coordination with NASA's Dryden Flight Research Center at Edwards, was in June 2012.