Scientists inspired by the octopus's nervous system have developed a robot that can decide how to move or grip objects by sensing its environment. (Nanowerk News) Scientists inspired by the octopus’s ...

University of Science and Technology of China has made a fascinating development in robotics, with the octopus-inspired robotic arm led by Nikolaos Freris. It combines the dexterity of a human hand ...

Soon, a flexible octopus-like robot could be completely free of wires or internal electronics. Engineers at Rice University have unveiled a new soft robotic arm controlled by laser beams.

(Nanowerk News) Roboticists have long aspired to match the dexterity and adaptability of animals with engineered creations. Soft-bodied creatures like octopuses can smoothly interact with uncertain ...

When designing robots it only makes sense to occasionally take a peek at what Mother Nature has already come up with for surviving and navigating our planet. But do robotics researchers have to keep ...

Researchers at the Swiss Federal Institute of Technology Lausanne (EPFL) have unveiled a novel robotic structure, the "trimmed helicoid," inspired by the movements of elephant trunks and octopus ...

In order to function safely alongside human workers, robotic arms shouldn't be hard and unyielding. An experimental new arm was designed with that fact in mind, as it mimics soft n' squishy elephant ...

The latest addition to a growing menagerie of octopus-robots has a lot going for it: It's small, completely squishy, it doesn't need a battery — and it farts. The adorable palm-sized robot is the work ...

Despite how advanced robots have become, getting them to feel the way humans do is an incredibly complex challenge.

Scientists inspired by the octopus’s nervous system have developed a robot that can decide how to move or grip objects by sensing its environment. The team from the University of Bristol’s Faculty of ...