(Nanowerk Spotlight) Building robots that can effortlessly mimic the movements of insects on water has been a persistent challenge in robotics. The ability to move autonomously and efficiently in ...

A new machine-learning technique can train and control a reconfigurable soft robot that can dynamically change its shape to complete a task. The researchers also built a simulator that can evaluate ...

Researchers have unveiled a new method that lets robots handle irregular, curved objects with ...

Formless 'slime' robots that shape-change to complete complex tasks – it sounds like science fantasy. However, MIT researchers have developed a machine-learning technique that brings shape-changing ...

(Nanowerk News) Researchers from North Carolina State University have demonstrated miniature soft hydraulic actuators that can be used to control the deformation and motion of soft robots that are ...

Researchers have demonstrated miniature soft hydraulic actuators that can be used to control the deformation and motion of soft robots that are less than a millimeter thick. The researchers have also ...

In Yu Gu’s Interactive Robotics Laboratory at WVU, doctoral student Trevor Smith observes Loopy, a multicellular robot that is learning to respond organically and autonomously to its environment. West ...

ANYmal is a truly remarkable robot, capable of standing and lifting things like a humanoid, or slinking around on all fours like a quadruped, with or without wheels. But what's really surprised us now ...

YOLO can mean many things, but in the context of [be_riddickulous]’s AI Talking Robot Dinosaur it refers to the “You Only Look Once” YOLOv11 object-detection algorithm by Ultralytics, the method by ...

According to a recent study by Columbia Engineering researchers published in Nature Machine Intelligence, robots can learn ...