Researchers developed a hyperelastic torque reversal mechanism, enhancing soft robots' performance with rapid and powerful ...

The researchers speculate that using more elastic materials or dynamic control of the robot’s movements could enhance the ...

A research team has taken inspiration from principles found in nature and developed the "hyperelastic torque reversal ...

Advancements could enhance perceptual capabilities in robotics. Artificially engineered biological processes, such as ...

Artificially engineered biological processes, such as perception systems, remain an elusive target for organic electronics ...

A recently published Sony patent reveals the company's efforts to develop a robot that can bring video games to life in a new ...

November 2022, Sydney, Australia Taronga’s resident Superb Lyrebird Echo can mimic a number of unique sounds. One of those ...

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

A new collaboration has unlocked new potential for the field by creating a novel high-performance organic electrochemical neuron that responds within the frequency range of human neurons.

Researchers created flexible robot wings inspired by monarchs, powered by magnetic fields. They enable precise movement ...

Cornell researchers developed soft robots that use built-in batteries as both power sources and structural components, ...