A soft robotic platform capable of carrying 7.7x its own mass while moving using four-legged locomotion.

A soft robotic platform capable of carrying 7.7x its own mass while moving using four-legged locomotion.
Thin, soft, and stretchable gallium-based sensors to accurately monitor human hand kinematics.
Inspired by swarm behavior in nature, researchers have developed a robot swarm with the ability to overcome the constraint of off-line resources.
Fabricating a 3D-printed architectured robotic body with deformable lightweight cellular structures.
Researchers in Japan take one step closer to making a prosthetic hand with human-like sensory and mechanical capabilities.
How the brain’s functional connectivity can be induced in neuromorphic devices to overcome the limitations of conventional silicon technology.