Low-power microelectronics embedded in live jellyfish enhance propulsion
SCIENCE
February 11, 202033 min read, 6637 words

Low-power microelectronics embedded in live jellyfish enhance propulsionLow-power microelectronics embedded in live jellyfish enhance propulsion

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Published: February 11, 2020  |  33 min read, 6637 words
Artificial control of animal locomotion has the potential to simultaneously address longstanding challenges to actuation, control, and power requirements in soft robotics. Robotic manipulation of locomotion can also address previously inaccessible questions about organismal biolo...
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