Researchers at Cornell University on Monday showcased a pair of bio-inspired robotics running on a hydraulic fluid-powered ...

Researchers at Cornell University have been working on batteries that can 'flow' through the internal structures of robots, ...

Their new worm and jellyfish robots are built around the transformative concept of “embodied energy,” where integrating the ...

A modular worm robot built by the Organic Robotics Lab and a jellyfish that was a collaboration with the Archer Group, both ...

Researchers at Cornell University are trying to develop robots that look and move more like living organisms. This is done by ...

Cornell University researchers are building soft robots with "robot blood" that is both hydraulic fluid that provides motive ...

Nearly a dozen miles off the California coast on a foggy October morning, a crane lifts a boxy yellow robot off the deck of the research vessel Rachel Carson and lowers it into Monterey Bay’s choppy ...

In a recent paper in Bioinspiration & Biomimetics, researchers at Florida Atlantic University describe the process of building and testing five free-swimming soft robotic jellyfish. The paper ...

In the same way that terrestrial life evolved from ocean swimmers to land walkers, soft robots are progressing, too, thanks to recent research in battery development and design.

The first two robots on display are a modular worm and a jellyfish, designed by the Cornell Engineering labs. The batteries powering these systems utilize embodied energy, “an approach that ...

In the same way that terrestrial life evolved from ocean swimmers to land walkers, soft robots are progressing, too, thanks to recent Cornell research in battery development and design. The worm and ...