4.2: Gliders

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Page ID: 31603

W. Sean Chamberlin, Nicki Shaw, and Martha Rich
Fullerton College via Blue Planet Publishing

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Torpedo-shaped, with wings and a tail rudder, gliders “fly” through the water column like an underwater airplane. But gliders have no propellers or engines. Instead, gliders rely on buoyancy changes to propel them through the water. When they lose buoyancy, the nose of the glider becomes heavier and it sinks. But instead of sinking vertically, its wings cause it to move forward at an angle. Similarly, as the glider gains buoyancy and the nose lifts, the wings cause it to move forward in the water column at an angle. The resultant flight pattern resembles a sawtooth. While slow moving relative to propelled vehicles, the efficiency of their movement and their low cost allow them to carry out missions of a month or more (e.g., Schofield et al. 2007).

Many types of gliders exist, but the best known is the Slocum glider, named after Canadian-American adventurer Joshua Slocum (1844–1909), the first person to sail alone around the world (1895–1898). American engineer Douglas Webb (b. 1929) originally conceived of the glider in 1978 and then jointly developed it in the 1980s and 1990s with American oceanographer Henry Stommel (1920–1992; Nehring 2021). Like its namesake, the Slocum glider evokes a spirit of exploration and determination—but for robots.

The latest generation of gliders—wave gliders—use the energy of ocean waves for propulsion. The above-water portion of the platform—the float—resembles a surfboard, albeit one outfitted with an antenna and solar panel. Below the surface, a tether connects to an underwater sled—the sub—which features multiple fins arranged like Venetian blinds. These fins generate thrust when the float rises and falls in the ocean swell. Both float and sub may be outfitted with sensors (e.g., Pagniello et al. 2019; Grare et al. 2021). In 2013 a wave glider named Benjamin Franklin completed a 455-day journey of 7,939 nautical miles (14,703 km) from San Francisco Bay to Lady Musgrave Island off the coast of Australia. The feat earned the platform a Guinness World Record for the “longest journey of an unmanned autonomous surface vehicle” (Guinness World Records 2013).

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