Scientists built flat sheet robots that can change shape and move without motors. They lock into 256 metabot forms using tiny ...

A new type of robots developed from thin sheets of material can execute a wide variety of actions despite the fact that they ...

Like octopuses squeezing through a tiny sea cave, metatruss robots can adapt to demanding environments by changing their shape. These mighty morphing robots are made of trusses composed of hundreds of ...

Dive into the world of underwater exploration, and you’ll find a new player making waves: HERO-BLUE. This isn’t your average remotely operated vehicle (ROV); it’s an innovative robot designed to ...

If a robot is going to excel at traversing multiple types of terrain, it shouldn't have an unadaptable "Jack of all trades, master of none" body shape. That's where the GOAT robot comes in, as it ...

The Agibot G2 fuses industrial strength with AI intelligence, and a world-first cross-shaped wrist arm that moves with ...

US researchers create microscopic DNA “flowers” that mimic life, folding and unfolding to adapt and deliver medicine.

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 ...

(Nanowerk News) Scientists at the Max-Planck-Institute for Intelligent Systems (MPI-IS) have developed hexagon-shaped robotic components, called modules, that can be snapped together LEGO-style into ...

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 ...