Scientific advancement: It's all in the wiggle. OK, it's a lot more complicated than that. But when a team of researchers at MIT unveiled their robotic fish Wednesday, one of the keys they emphasized ...
Key performance trade-offs revealed The robotic fish achieved a maximum swimming speed of 1.24 body lengths per second at 5 Hz in the tuna-like mode, while the anguilliform mode showed a sharp decline ...
The boat-shaped robot takes advantage of the same phenomenon – the Marangoni effect – used by some aquatic insects to propel themselves across the surface of water. A chemical reaction within a tiny ...
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Reconfigurable robotic fish reveals how stiffness and wave propagation shape swimming performance
Led by Professor Yu Junzhi from the School of Advanced Manufacturing and Robotics, the team created a soft robotic fish capable of switching between eel-like (anguilliform) and tuna-like (carangiform) ...
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