Think of actuators as the robot’s muscles —the technology that enables humanoids to move. Actuators come in three types: ...

Magnetic graphene oxide sheets fold, move, sense motion, and switch function by swapping magnetic layers, offering a fast, reprogrammable platform for soft robots and other morphable structures.

When climbing stairs, the front legs first test the height and pull the chair up, while the rear legs push their weight ...

TL;DR: FigureAI has developed an AI-powered walking controller for its Figure 02 humanoid robot, enhancing its movement to be more human-like with features such as heel strikes and synchronized arm ...

Like something out of an early Transformers movie, researchers at Caltech have just demonstrated how a humanoid and a drone can team up to accomplish multiple forms of movement. The experiment opens ...

Before there was Arnold (or AH-nuld), there were probably things like this: robots that can walk without sensors or other special means of propulsion. What would it say if it could talk? Probably ...

Scientists have achieved a breakthrough in soft robotics, creating four-legged robots capable of walking immediately after being 3D-printed. This innovation utilizes a novel upside-down printing ...

Move over, Boston Dynamics, as there’s a new robot dog in town. Swedish startup IntuiCell has unveiled its AI model that learns and adapts to its environment, demonstrated through a robot dog named ...

The University of Vermont Medical Center now has two robots that can help patients with neurological conditions learn to walk again. Those who have suffered strokes or brain injuries, have Parkinson’s ...