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.

Octopus arms are one of the most flexible structures known in all of the biological world. Their agility is so extraordinary ...

Researchers have compiled the first complete catalog of octopus arm movements from 25 wild octopuses filmed in their natural habitats.

For the first time, engineers have digitally recreated the complex muscular architecture of the octopus arm and its unique movements, which opens the door to developing soft robotics with ...

Octopus arms coordinate nearly infinite degrees of freedom to perform complex movements such as reaching, grasping, fetching, crawling, and swimming. How these animals achieve such a wide range of ...

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 ...

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 ...

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 ...

Researchers at the Bristol Robotics Laboratory have unveiled a innovative adaptive robot suction mechanism that draws inspiration from the biological structures of octopus suckers. This robot octopus ...

If you’ve ever played the claw game, you probably never thought about the scientific applications of that arcade game designed to take your money. But engineers at Harvard University must have. A team ...