Malaysia Airlines black box will be sought by robot submarine

Malaysia Airlines black box search: The crew on board the Australian navy's Ocean Shield will launch the unmanned underwater vehicle Monday evening. 

The Bluefin 21 autonomous sub is hoisted back on board the Australian Defense Vessel Ocean Shield after successful buoyancy testing in the Indian Ocean, on April 1, as search efforts continue for missing Malaysia Airlines Flight 370.

Specialist 1st Class Peter D. Blair/U.S. Navy/AP/File

April 14, 2014

Search crews will for the first time send a robotic submarine deep into the Indian Ocean on Monday to try to determine whether underwater signals detected by sound-locating equipment are from the missing Malaysian jet's black boxes, the leader of the search effort said.

The crew on board the Australian navy's Ocean Shield will launch the unmanned underwater vehicle Monday evening, said Angus Houston, the head of a joint agency coordinating the search off Australia's west coast. The Bluefin 21 autonomous sub can create a three-dimensional sonar map of the area to chart any debris on the seafloor.

The move comes after crews picked up a series of underwater sounds over the past two weeks that were consistent with an aircraft's black boxes, which contain flight data and cockpit voice recordings. The devices have beacons that emit "pings" so they can be more easily found, but the beacons' batteries last only about a month, and it has been more than a month since the plane vanished.

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"We haven't had a single detection in six days, so I guess it's time to go under water," Houston said.

Australian Prime Minister Tony Abbott raised hopes last week when he said authorities were "very confident" the four underwater signals that have been detected are coming from the black boxes on Flight 370, which disappeared March 8 during a flight from Kuala Lumpur, Malaysia, to Beijing.

But Houston warned that while the signals are a promising lead, the public needs to be realistic about the challenges facing search crews, who are contending with an extremely remote, deep patch of ocean — an area he dubbed "new to man."

"I would caution you against raising hopes that the deployment of the autonomous underwater vehicle will result in the detection of the aircraft wreckage. It may not," Houston said. "However, this is the best lead we have, and it must be pursued vigorously. Again, I emphasize that this will be a slow and painstaking process."

The Ocean Shield has been dragging a U.S. Navy device called a towed pinger locator through the water to listen for any sounds from the black boxes' beacons. Over the past 10 days, the equipment has picked up four separate signals.

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The Bluefin sub takes six times longer to cover the same area as the ping locator, and the two devices can't be used at the same time. Crews were hoping to detect additional signals before sending down the sub, so they could triangulate the source and zero in on where exactly the black boxes may be.

But it has been 38 days since the plane disappeared, and search crews haven't picked up any new sounds since Tuesday, suggesting that the devices' batteries may now be dead. That is why officials will now begin using the Bluefin, Houston said.

The submarine will take 24 hours to complete each mission: two hours to dive to the bottom, 16 hours to search the seafloor, two hours to return to the surface, and four hours to download the data, Houston said. In its first deployment, it will search a 40-square-kilometer (15-square-mile) section of seafloor.

The black boxes could contain the key to unraveling the mystery of what happened to Flight 370 after it disappeared with 239 people on board. Investigators believe the plane went down in the southern Indian Ocean based on a flight path calculated from its contacts with a satellite and analysis of its speed and fuel capacity. But they still don't know why.

Meanwhile, officials were investigating an oil slick not far from the area where the underwater sounds were detected, Houston said. Crews have collected a sample of the oil and are sending it back to Australia for analysis, a process that will take several days.

The oil does not appear to be from any of the ships in the area, but Houston cautioned against jumping to conclusions about its source.

A visual search for debris on the ocean surface was continuing on Monday over 47,600 square kilometers (18,400 square miles) of water about 2,200 kilometers (1,400 miles) northwest of the west coast city of Perth. A total of 12 planes and 15 ships would join the two searches.

But Houston said that the visual search operation would be ending in the next two to three days. Officials haven't found a single piece of debris linked to the plane, and Houston said the chances that any would be have "greatly diminished."

"We've got no visual objects," he said. "The only thing we have left at this stage is the four transmissions and an oil slick in the same vicinity, so we will investigate those to their conclusion."

Complicating matters further is the depth of the ocean in the search area. The seafloor is about 4,500 meters (15,000 feet) below the surface, which is the deepest the Bluefin can dive. Officials are looking for other vehicles that could help to retrieve any wreckage, should the Bluefin find any.

Searchers are also contending with a thick layer of silt on the bottom that is tens of meters deep in places, which could hide debris that has sunk.

U.S. Navy Capt. Mark Matthews said the silt may not have hidden everything, however.

"Our experience shows that there will be some debris on top of the silt and you should be able to see indications of a debris field," Matthews said. "But every search is different."

A British vessel, the HMS Echo, has equipment on board that can help to map the seafloor, which is more flat than mountainous, Houston said.