Researchers at the University of California, Berkeley, have created a versatile control system for humanoid robots to adeptly navigate a variety of terrains and obstacles. Drawing inspiration from the ...

Toyota has unveiled CUE7, the latest version of its basketball-playing robot, as a demonstration ...

Vibration sensors can aid in stability and navigation, particularly for field robots in varied terrain, writes a columnist.

The companies have jointly developed an AI robot control system that can interact with the physical world and be used in various fields from logistics to rescue operations. Tests have shown that in ...

This research has broken through the limitations of traditional rehabilitation robot control methods, which often rely on fixed or variable impedance control with no consideration for the patient's ...

A new machine-learning technique can efficiently learn to control a robot, leading to better performance with fewer data. Researchers from MIT and Stanford University have devised a new ...

That is the pitch behind DeepMirror, a startup positioning itself as a runtime layer for physical AI. The company says it has integrated OpenClaw with a Unitree robot, marking an early step toward ...

With robotic machine tending applications gaining ground across the discrete manufacturing industries, OEMs, end users and integrators are seeking systems that are easy to set up and install. In ...

A humanoid robot standing approximately 127 cm (about 4 ft 2 in) tall and built in China can now rally a tennis ball back and ...

In a world of ever-evolving robots, some of you might remember the one that more or less started it all: the Honda-made Asimo, a humanoid robot that broke cover back in the year 2000 at the CES show ...