Watch out, giant squids and anglerfish: There may be a new, artificial addition to Earth’s deep-sea ecosystems.
A research team led by scientists from Zhejiang University in eastern China have designed a fish-like robot with a flexible, soft body to explore the greatest depths of the ocean. The battery-powered robot was tested last November in the Mariana Trench — which extends nearly 11,000 meters below sea level — where it flapped around for 45 minutes without being damaged by the extreme cold and high pressure.
Details of the as-yet-unnamed robot, including its research potential, were published in the scientific journal Nature on Wednesday.
“It wasn’t so long ago that we discovered fish in the deep ocean, so soft submersibles for exploring the depths of the sea are really a scientific frontier,” Zhou Haofei, the study’s co-author and a professor of engineering mechanics at Zhejiang University, told Sixth Tone.
The robot has two wing-like fins on each side of its body, like a manta ray, and is about the size of about two hands. The electronic components are embedded in soft, silicone-based materials, meaning the machine is capable of squeezing through tight spaces, Zhou said.
A GIF shows front and top views of the research team’s fish-like robot for deep-sea exploration. Courtesy of Zhejiang University
The team released an identical robot fish in the South China Sea at a depth of more than 3,200 meters to test its ability to perform exploration-related tasks. The robot glided, flapping its fins, and disappeared into the darkness.
Unfortunately, the team wasn’t able to retrieve the device because it wasn’t equipped with a navigation system.
For years, submersibles sent to the depths of the ocean have had hard, metal shells to protect the electronic components inside from the freezing temperatures and crushing pressure.
Previously, soft robots like the one revealed Wednesday — which is modeled after the snailfish, found anywhere between the ocean’s surface and 8,000 meters — had only been tested in shallow waters, Zhou said. If they are demonstrated to be effective, he added, their lower cost means scientists could design entire schools of them, capable of working together to carry out commands.
“The ocean is so massive, it’s impossible to rely on a single robot to explore everything,” Zhou said. “There’s a lot of room for improvement, such as adding communication functions so the robot can transmit the data it collects.”
Editor: Bibek Bhandari.
(Header image: The research team’s robot model (left) next to an image of the deep-sea snailfish that inspired it. Courtesy of Zhejiang University)