4.8: Mini-Autonomous Underwater Explorers

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Page ID: 31609

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

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Sometimes smaller is better. Enter the mini-autonomous underwater explorer (M-AUE). The M-AUE system operates as a swarm of instruments, a dense collection of subsurface drifters and GPS-enabled surface floats that track upper ocean motions in a kind of virtual electronic net. Roughly the size of stout 1.5-liter sports bottles, the subsurface drifters can provide a three-dimensional view of the upper ocean over distances of hundreds of feet to a few miles. Because the drifters can be programmed to automatically maintain their position in the water column, they can mimic the drift patterns of plankton, harmful algae, or oil spills (e.g., Jaffe et al. 2017). The fine-scale information provided by M-AUEs has already revealed insights into how marine larvae find their way home (e.g., Garwood et al. 2020). M-AUEs offer a preview of an emerging field of study known as underwater swarm robotics, the design and development of multi-robot systems that interact and coordinate their behavior to solve problems and carry out complex tasks (e.g., Connor et al. 2021). Such systems offer opportunities to better understand the connections between physical and biological processes in the ocean (e.g., Dickey 1991).

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