PERTH, Australia -- Searchers looking for the missing Malaysia Airlines plane have discovered signals consistent with those emitted by black boxes in the Indian Ocean, but they may still be a long way from finding the first piece of wreckage. Here's a look at what they've accomplished, and what remains to be done:
The Australian navy vessel Ocean Shield picked up the signals using a U.S. Navy device called a towed pinger locator. It's essentially a long cable with a listening device, or hydrophone, attached to the end. It's pulled behind the boat at a depth of 3 kilometers (1.9 miles).
The pinger locator is designed to detect signals at a range of 1.8 kilometers (1.2 miles), meaning it would need to be almost on top of the black boxes to detect them if they were on the ocean floor, which is 4,500 meters (14,800 feet).
The first signal was picked up Saturday evening and lasted two hours and 20 minutes before it was lost as the ship moved forward. The ship then turned around and a few hours later picked up a second signal that lasted for 13 minutes.
In an earlier development, the crew of a Chinese ship told Australian authorities they had picked up possible signals using a less sophisticated hydrophone dangled over the side of a small boat some 555 kilometers (345 miles) away from the Ocean Shield. Another ship is separately investigating further.
U.S. Navy Capt. Mark Matthews said on both occasions the Ocean Shield detected sounds, the pings were emitted about 1 second apart -- consistent with those that could be sent from the black boxes: the flight data recorder and cockpit voice recorder.
The signals were broadcast at 33.3 kilohertz rather than the 37.5 kilohertz frequency at which black boxes are supposed to broadcast pings. Matthews said that according to the manufacturer, the frequency of the black boxes can drift near the end of the device's shelf life, which is about six years.
Matthews said the signals are man-made. He said there's always the possibility they're getting a false reading, for instance from a device on their own ship, but they are careful to avoid that.
He said the two signal detections came from points estimated to be about 2 kilometers (1.2 miles) apart. Matthews said that water temperature and water layers can distort and refract signals, so they may in fact be from the same area.
On Monday, the Ocean Shield was trying to pick up the signal again, so far without success. Matthews said it would continue trying for at least another day. He said the boat tries to go over the area from different angles in an attempt to triangulate an exact position.
"It's like playing 'hot and cold,' when you're searching for something and someone's telling you you're getting warmer and warmer and warmer," he said.
One way or another, the game will end soon. The black boxes are designed to emit pings for just 30 days, and 30 days have passed since the plane went missing March 8. Sometimes, the batteries last longer than required.
When crews determine the best possible location, the next step will be to send down the U.S. Navy's autonomous underwater vessel Bluefin 21, a robot that can create a sonar map of the seafloor and any wreckage, as well as take photos.
Matthews said the Bluefin's sonar can scan only about 100 meters (328 feet) and it can "see" with lights and cameras only a few meters. Since its range is limited, searchers are waiting to use it until they determine more precisely where the pings are coming from.
The Bluefin can explore the ocean floor for about 16 hours at a time. It takes another four hours for the return journey. It takes crews two to four hours to review the data it has gathered.
The Bluefin's maximum depth is 4.5 kilometers, about the depth of the ocean floor. If any debris is lower than that, a different machine would need to be brought in, creating a delay.
If crews are able to locate the wreckage, Matthews said, they will prioritize what needs to be recovered first, which will likely include the black boxes.
"It's still going to take some time," Matthews said. "Nothing happens fast in deep search and recover."