Pilots are becoming so
reliant on the computer systems that do most of the flying in today's
airliners that on the rare occasions when something goes wrong, they're
sometimes unprepared to take control, according to aviation safety
experts and government and industry studies.
Increasing automation has
been a tremendous safety boon to aviation, contributing to historically
low accident rates in the U.S. and many parts of the world.
But automation has changed the relationship between pilots and planes, presenting new challenges.
Pilots today typically
use their "stick and rudder" flying skills only for brief minutes or
even seconds during takeoffs and landings. Mostly, they manage computer
systems that can fly planes more precisely and use less fuel than a
human pilot can. But humans simply aren't wired to pay close and
continual attention to systems that rarely fail or do something
unexpected.
"Once you see you're not
needed, you tune out," said Michael Barr, a former Air Force pilot and
accident investigator who teaches aviation safety at the University of
Southern California. "As long as everything goes OK, we're along for the
ride. We're a piece of luggage."
The National
Transportation Safety Board holds a two-day investigative hearing Dec.
10-11 on the crash of an Asiana Airlines jet that was flying too low and
slow while trying to land at San Francisco International Airport last
July.
The plane struck a
seawall just short of the runway, shearing off its tail and sending the
rest of the airliner sliding and turning down the runway before breaking
apart and catching fire. Three passengers were killed and scores of
others injured.
The hearing will focus on "pilot awareness in a highly automated aircraft," the board said.
Investigators want to
know how the three seasoned pilots allowed a passenger jet with no
apparent mechanical problems in near-perfect weather conditions to lose
speed so dramatically that it was on the brink of stalling moments
before the crash.
The pilot flying the
plane was attempting to land without use of the autopilot. Normally, the
pilot in the second seat is supposed to have his eyes on the plane's
computer screens to monitor airspeed and other readings, rather than
looking out the window.
In this case, that pilot
was a training captain who was grading the performance of the pilot
flying the plane. The training captain told investigators he thought the
plane's autothrottle was maintaining engine power and thus speed, but
discovered that wasn't the case just moments before the crash.
The autothrottle was
"armed," or made ready for activation, investigators said in briefings
after the accident, but they left open the question whether it was
engaged and in idle or another mode.
Aircraft systems can have many modes, or settings, and perform quite differently depending upon the mode.
Pilot "mode awareness" is
one of the more common automation-related problems showing up in
accidents and incidents, according to an automation study released last
month by the Federal Aviation Administration. Mode changes occur
frequently during flight, often without any direct action by pilots. If
pilots aren't continually paying close attention, they can lose track of
which mode their systems are in.
Pilots also make mistakes
when selecting modes. Mode selection errors were cited in 27 percent of
the accidents reviewed in the FAA study.
Less than six weeks after
the Asiana crash, a United Parcel Service cargo jet flying too low
while trying to land in Birmingham, Ala., struck trees and then a power
line before crashing into a hillside near the airport. Both pilots were
killed.
In that case the
autopilot was on, and seconds before the crash there was a loud
automated warning that the plane was losing altitude too rapidly,
according to investigators. The investigation is continuing, but some
safety experts see a possible link between the two accidents.
"I think mode awareness
is going to be very central in both investigations," said John Cox, an
aviation safety consultant and former accident investigator for the Air
Line Pilots Association. "In both cases the airplane appears to have
been properly maintained, everybody is properly trained. A lot of the
focus is on how the crew operated the airplane so that it ended up with
the airplane short of the runway."
The Asiana accident was
the first fatal crash of a passenger airline in the U.S. since a
regional airline pilot lost control of his plane during a landing
approach in Buffalo, N.Y., in February 2009. In that crash,
investigators found the two pilots weren't closely monitoring airspeed
and failed to notice when the speed began dropping rapidly.
The first officer also
made a programming error at the start of the flight that much later
caused the plane's automated stall warning system to go off even though
the plane wasn't on the verge of stalling. The startled captain
responded to the warning, and again to another automated safety system,
sending the plane into a full stall. It plummeted to the ground, killing
all 49 people on board and a man in a house below.
There was nothing
mechanically wrong with the plane, and the captain should have been able
to regain control of the plane if he had responded correctly,
investigators said. Such "loss of control" accidents accounted for 43
percent of fatal passenger airline and air cargo accidents over the five
years ending in December 2012, according to the International Air
Transport Association, which represents carriers around the world.
Last month, the FAA
issued new pilot training regulations calling for more attention to
teaching pilots how to recover from stalls. The regulations are a
response to the regional airline crash and to a pattern of accidents and
incidents around the world in which startled pilots faced with
situations automation can't resolve fail to appropriately take charge.
"Flight crews are
seemingly becoming increasingly reluctant to revert to manual flying
when automated systems fail, when aircraft attitudes reach unusual
positions, or when airspeeds are not within the appropriate range," the
air transport association said in an annual safety report this year.
"Flight crews must still be capable of manually operating the aircraft,
especially in edge-of-the-envelope situations."
The issue is a sensitive one for the airline industry.
Dan Elwell, senior vice
president for safety at the trade association Airlines for America, said
he doesn't believe pilots' relationship with aircraft automation is a
growing safety problem.
"Pilots today are as proficient as ever. We're not seeing any degradation in stick-and-rudder skills," he said.
Looking ahead, some
experts foresee an increasing level of automation in planes and in
systems used by air traffic controllers to direct planes. The precision
that automation provides will be needed if planes are to safely fly
closer together and to direct them more efficiently in and out of
airports to accommodate greater demand for air travel, said Hank
Krakowski, a former head of FAA air traffic operations.
"There are limits to how
well a human can do that, particularly with more airplanes coming in,"
he said. "So you really do need automation to help manage that."
Source: http://abcnews.go.com