"Nevertheless, we're getting into the stage where the signal from what we are very confident is the black box is starting to fade," he added. "We are hoping to get as much information as we can before the signal finally expires."
The plane's black boxes, or flight data and cockpit voice recorders, may hold the answers to why the Boeing 777 lost communications and veered so far off course when it vanished March 8 while flying from Kuala Lumpur, Malaysia, to Beijing with 239 people on board.
Search crews are racing against time because the batteries powering the devices' locator beacons last only about a month — and more than a month has passed since the plane disappeared. Finding the black boxes after the batteries fail will be extremely difficult because the water in the area is 4,500 meters (15,000 feet) deep.
The Australian ship Ocean Shield is towing a U.S. Navy device that detects black box signals, and two sounds it heard Saturday were determined to be consistent with the signals emitted from aircraft flight recorders. Two more sounds were detected in the same general area on Tuesday.
"We are confident that we know the position of the black box flight recorder to within some kilometers," Abbott said. "But confidence in the approximate position of the black box is not the same as recovering wreckage from almost 4 ½ kilometers beneath the sea or finally determining all that happened on that flight."
Abbott also met with Chinese President Xi Jinping in Beijing on Friday and briefed him on the search. Two-thirds of the passengers aboard Flight 370 were Chinese, and their relatives have been critical of the Malaysian government's handling of the crisis.
"This will be a very long, slow and painstaking process," Abbott told Xi.
An Australian air force P-3 Orion, which has been dropping sonar buoys into the water near where the Ocean Shield picked up the sounds, detected another possible signal on Thursday, but Angus Houston, who is coordinating the search for the plane, said in a statement that an initial assessment had determined it was not related to an aircraft black box.
The buoys each have a hydrophone listening device that dangles about 300 meters (1,000 feet) below the surface and their data are sent via radio back to a plane, Royal Australian Navy Commodore Peter Leavy said.
The Ocean Shield was still towing its pinger locator to try to find additional signals on Friday, and the Orions were continuing their hunt, Houston said. The underwater search zone is currently a 1,300-square-kilometer (500-square-mile) patch of the ocean floor, about the size of the city of Los Angeles.
"It is vital to glean as much information as possible while the batteries on the underwater locator beacons may still be active," Houston said in a statement.
The searchers are trying to pinpoint the exact location of the source of the signals so they can send down a robotic submersible to look for wreckage. Houston said Friday that a decision to send the sub could be "some days away."
The Bluefin 21 submersible takes six times longer to cover the same area as the pinger locator being towed by the Ocean Shield and would take six weeks to two months to canvass the current underwater search zone.
Complicating matters is the depth of the seabed in the search area. The signals are emanating from 4,500 meters (15,000 feet) below the surface, which is the deepest the Bluefin can dive. The search coordination center said it was considering options in case a deeper-diving sub is needed.
Meanwhile, the center said the surface area to be searched for floating debris had been narrowed to 46,713 square kilometers (18,036 square miles) of ocean extending from 2,300 kilometers (1,400 miles) northwest of Perth. Up to 15 planes and 13 ships were conducting the visual search Friday, west of the underwater search based on expected drift from the suspected crash site.