Skip to main content

This robot eel glides through saltwater without making a sound

Transparent eel-like soft robot can swim silently underwater

Even before Gore Verbinski’s disappointing recent horror movie A Cure for Wellness, we were pretty creeped out by eels. As if the real thing wasn’t unnerving enough, however, engineers and marine biologists from the University of California, San Diego, have created an eel robot that’s designed to swim silently through saltwater — using the same rhythmic, ribbon-like motions as its natural counterpart.

Recommended Videos

“The robot is powered by artificial muscles that contract and expand when stimulated with electricity,” Caleb Christianson, a Ph.D. student at the Jacobs School of Engineering at UC San Diego, told Digital Trends. “By arranging these muscles and stimulating them in a certain sequence, we can generate forward propulsion.”

Please enable Javascript to view this content

The eel robot does not carry an onboard electric motor. Instead, it is decked out with cables which apply voltage to both the water around it and to pouches of water inside its artificial muscles. The robot’s electronics deliver a negative charge to the surrounding water and a positive charge internally, thereby activating its muscles. These charges cause the muscles to bend. Fortunately for surrounding marine life, they are low enough current to be perfectly safe — so that any creature which hasn’t already fled in terror from the robot eel won’t find itself harmed by being in the same vicinity.

Translucent Soft Robots Driven by Frameless Fluid Electrode Dielectric Elastomer Actuators

“Traditional robots for underwater exploration are typically powered by propellers or jets that generate a lot of noise, and are made out of rigid materials that may damage their surroundings if they were to bump into them,” Christianson continued. “Instead, the structure of our robot is completely soft, which reduces the risk of damage to the environment. The artificial muscles that we use are [also] silent, which allows the robot to swim without making any noise.”

Christianson noted that, right now, the project is still a proof-of-concept to demonstrate a means of underwater propulsion. In the future, the team hopes to add a variety of sensors and cameras, as well as optimize the design, so as to use the eel-bot for the purpose of underwater exploration.

A paper describing the work, “Translucent soft robots driven by frameless fluid electrode dielectric elastomer actuators,” was recently published in the journal Science Robotics.

Luke Dormehl
Former Digital Trends Contributor
I'm a UK-based tech writer covering Cool Tech at Digital Trends. I've also written for Fast Company, Wired, the Guardian…
Watch Spot and Pepper robots come together to cheer their baseball team
robot dance troupe entertains baseball fans watching at home spot and pepper

Robo-fans cheer for Japanese baseball team in stadium cleared to fight coronavirus pandemic

Robots can’t catch the coronavirus, so a baseball team in Japan has used a bunch of them to bring some life to its empty stadiums during mid-game entertainment slots for fans watching at home.

Read more
This omelet-making robot chef is a sci-fi dream come true
omelette making robot chef

Can robots make omelettes?

Would we think more fondly of the Skynet robot takeover if the Terminators cooked us breakfast first? Researchers from the U.K.’s renowned University of Cambridge are putting that hypothesis to the test (kind of) by training a robot to prepare an omelet -- from cracking the eggs through to plating up the finished dish. And, according to its creators, the robo-omelet actually tastes pretty darn good.

Read more
MIT learns to make robots less clumsy by putting cameras in their fingers
mit csail gelflex robot hand camera gripper can copy

New research from the Massachusetts Institute of Technology could help robots get a literal grip.

Two research groups from the Computer Science and Artificial Intelligence Lab (CSAIL) today shared research to improve grippers in soft robotics, which unlike traditional robotics, uses flexible materials.

Read more