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Robot goes fishing for signs of global warming

By Gregory Mone
(Popular Science)

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The Spray robot will act as an aquatic sentinel -- investigating the role of oceans in climate change.

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Marine Science
Woods Hole Oceanographic Institution
Popular Science

(PopSci.comexternal link) -- This month, a slow-swimming robot known as Spray will attempt to glide roughly 2,484 nautical miles across the Atlantic, from the southern tip of Greenland to the coast of Spain.

An autonomous underwater vehicle, or AUV, Spray is a joint venture between the Woods Hole Oceanographic Institution in Massachusetts and the Scripps Institution of Oceanography in California.

When deployed, it will act as an aquatic sentinel, gathering data on temperature, currents and salinity that will help scientists better understand the role of oceans in regulating the global climate.

The main point of the Greenland-Spain run is to test its endurance -- if successful, the robot will break its own record of 1,864 nautical miles for the longest distance ever traveled by an AUV.

But the big goal, which researchers hope to meet by 2011, is to deploy hundreds of these gliders worldwide, giving scientists a constant telepresence in the ocean.

Here is how Spray works:

  1. Propulsion: The 6.5-foot-long winged glider has no propellers. Instead it generates lift as it dives up and down. A computer controls the angle of its dive by shifting one of three battery packs. (For a sharper dive, the pack shifts toward the nose.)
  2. Diving: Scientists predetermine the dive's depth, which can extend to 1,000 meters. When Spray reaches the low point, it pumps oil from a bladder in its watertight hull to another bladder in its water-filled tail. This pushes water out of the craft and makes it rise.
  3. Sensors: Spray's instruments measure temperature and salinity. Scientists will also learn about currents by monitoring how far the glider deviates from its predicted path. Eventually, they would like to add to the instrument suite, enabling it to measure oxygen content, nutrient levels and more.
  4. Communications: On the surface, Spray rolls to one side, and a GPS antenna embedded in the wingtip records its position. Then it rolls again, and an antenna in the other wingtip relays the new position and scientific data using a satellite phone system.
  5. Guidance: Scientists receive regular e-mail updates on Spray's progress. If it's off course, they can send new target points, which Spray will receive by antenna the next time it surfaces. During the early tests, scientists monitored the AUV for several hours a day. Now they just check their e-mail occasionally.
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