Comment
0
Tweet
2
Print
RSS Feeds

Navy to launch unmanned aircraft from carrier

Tuesday - 5/14/2013, 12:41pm  ET

BROCK VERGAKIS
Associated Press

ABOARD THE USS GEORGE H.W. BUSH (AP) -- The Navy will make its first attempt to launch an unmanned aircraft the size of a fighter jet from an aircraft carrier on Tuesday, marking a significant step toward the possibility of expanded drone use in future conflicts.

The X-47B can reach an altitude of more than 40,000 feet, has a range of more than 2,100 nautical miles and can reach high subsonic speeds. It is also fully autonomous in flight. It relies on computer programs to tell it where it to go unless a mission operator needs to step in. That differs from other drones used by the military, where someone directs the plane from a remote location.

While this aircraft isn't intended for operational use, the military is using the information it gathers during these demonstrations to develop other unmanned, carrier-based planes.

Having a carrier-based drone is considered particularly valuable because it can be deployed around the world without needing the permission of other countries to serve as a home base. There has been pushback against the use of drones from some nations that say the strikes erode the U.S. image overseas. Navy officials say the planes will provide around-the-clock intelligence, surveillance and targeting capabilities.

Some critics have said the military's use of drones, furthered by Tuesday's tests, create concerns over the development of systems that could become weaponized and have less and less human control over launching attacks.

Human Rights Watch has called for a pre-emptive prohibition of the development and use of any unmanned systems that carry weapons and are fully autonomous.

While current models, like the X-47B, retain some level of supervision over decisions whether to use lethal force, the group predicts that fully autonomous weapons could be developed within decades that select and engage targets with no human intervention.

Tuesday's tests show the trend toward greater autonomy "is not one that is going to be stopped," said Steve Goose, director of the arms division at Human Rights Watch.

"For us, the question is where do you draw line?" Goose said. "We're saying you need to draw the line when you have a fully autonomous system that is weaponized. We're saying you must have meaningful human control over key battlefield decisions of who lives and who dies. That should not be left up to the weapons system itself."

The Department of Defense issued a directive last year that said it would not pursue fully autonomous weapons, at least for the next few years. The U.S. is the only country with such a directive, Goose said.

Before the planes can become commonplace, however, the military has to prove they planes can operate in the harsh conditions aboard an aircraft carrier at sea. The aircraft is set to taxi on the flight deck of the USS George H.W. Bush while it is in the Atlantic Ocean and use a steam catapult to launch, just like a traditional Navy warplane does.

"These are exciting times for the Navy as we are truly doing something that has never been done before -- something I never imagined could be done during my 29-year naval career," Rear Adm. Mat Winter, the Navy's program executive officer for unmanned aviation and strike weapons, wrote in a Monday blog post.

While the tailless plane won't land on the aircraft carrier on Tuesday, the Navy plans to conduct those tests soon. Landing on a moving aircraft carrier is considered one of the most difficult challenges Navy pilots face. Following the test launch, the plane will make a series of approaches toward the aircraft carrier before landing at Naval Air Station Patuxent River in Maryland.

Earlier this month, the Navy successfully conducted a landing at that air station where the X-47B used a tailhook on the aircraft to catch a cable and suddenly stop, just as planes landing on carriers have to do.

In the 2014 fiscal year, the Navy plans to demonstrate that the X-47B can be refueled in flight. The program cost is $1.4 billion over eight years. Northrop Grumman was awarded the primary contract in 2007.


Copyright 2013 The Associated Press. All rights reserved. This material may not be published, broadcast, rewritten or redistributed.