How Can You Make Planes Easier To Find In The
Ocean?
WASHINGTON (AP) -- For nearly five years, government and
industry officials have been exploring ways to make it easier to find airliners
and their critical "black boxes" that end up in the ocean. But their efforts are
too late to help in the case of a Malaysia Airlines jet that disappeared over
the weekend.
The efforts were spurred primarily by the search for Air
France Flight 447, which disappeared over the Atlantic Ocean en route from Rio
de Janeiro to Paris on June 1, 2009. It was nearly two years later before the
main wreckage of the Airbus A330 and its black boxes - it data and cockpit voice
recorders - were found about 13,000 feet below the ocean's surface.
Since
then, U.S., European, and industry officials and technical organizations have
discussed requiring underwater locator beacons on black boxes last at least 90
days instead of the current 30, making the boxes so that they will float,
attaching underwater locator transmitters to the aircraft fuselage and putting
floatable emergency locator transmitters on planes, according to a National
Transportation Safety Board briefing Tuesday.
But those efforts are still
a work in progress.
"I think at the time a lot of people were looking at
Air France 447 as unique," William Waldock, who teaches accident investigation
at the Embry-Riddle Aeronautical University "We really had not had one like that
where it takes so long to find it."
But a Malaysia Airlines Boeing 777
with 239 people on board disappeared over open ocean en route from Kuala Lumpur
to Beijing on March 8, and has proved remarkably difficult to find.
Data
recorders typically record over a 24-hour period at least hundreds of types of
information about how a plane is functioning. Investigators count on that
information for clues to the cause of an accident, including how the engines are
working, the pilots' actions, the status of key systems like the autopilot and
autothrottle, and the position of wing flaps and rudder.
The cockpit
voice recorders contain pilots' conversations and any sounds inside the cockpit
in a continuous two-hour loop.
Both are required to be equipped with an
underwater locator beacon powered by a tiny radioactive pellet that continually
sends out sonic signals for a minimum of 30 days. In recent years there has been
discussion about whether the beacon signals should be required to last at least
90 days, according to the NTSB.
Even with a functioning beacon, the
signal can only be heard underwater with special equipment and can diminish
depending upon the ocean depth, water currents and whether the boxes are buried
in silt or sand.
There have been discussions about requiring boxes be
made so that they float, and of attaching underwater locator devices to the
plane's structure to help find both the wreckage and the boxes, the board
said.
Another idea that has been discussed is whether airliners should
have emergency locator transmitters - which are different than underwater
beacons - that automatically detach and float to the surface if the plane
plunges into water. Such transmitters, which employ satellite technology, only
work above the water. The U.S. Navy has had such floating transmitters on its
planes for about 15 years, Waldock said.
"It boils down to expense as
much as anything," Waldock said. "These systems are pricey."
A technical
advisory committee to the Federal Aviation Administration began a three-day
meeting in Washington on Monday about whether transmitter standards should be
strengthened.
Some newer airliners already stream much of the same
information recorded by black boxes back to their home base via satellite.
Airlines do this primarily so that they know whether there are any problems with
the plane that require maintenance or repairs. If they get the information while
the plane is still in-flight, they can have mechanics and parts in place when it
lands, saving time and money.
But if planes also streamed back
information like altitude, airspeed and heading, it could also provide critical
clues to searchers in the event of a crash. However, if all the thousands of
airliners that are in the air in the U.S. everyday were all streaming large
amounts of data at the same time, there wouldn't be enough bandwith to transmit
the data or enough capability to record it on the ground, Waldock said.
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