Early demos relied heavily on remote human operators for Neo, but the man behind the machine says Neo is getting better at doing things on its own.

Human–robot interaction (HRI) and gesture-based control systems represent a rapidly evolving research field that seeks to bridge the gap between human intuition and robotic precision. This area ...

This humanoid robot has a mind of its own. Researchers at Tianjin University in China have created a robot that is controlled by human brain cells in a first-of-its-kind breakthrough in biocomputation ...

Human–robot collaboration and interaction represent a rapidly evolving interdisciplinary field in which robotics, artificial intelligence and human factors engineering converge to develop systems that ...

By learning from human touch, robots can grip objects more safely and adapt to real-world conditions without massive training ...

A human-centered remote monitoring and control system for industrial robots upgrades remote connectivity and control. Olis Connect provides users with a unique remote ...

China’s latest military gadget looks like it was ripped from a science fiction storyboard: a motion-controlled combat robot that throws punches and kicks when a human operator does. The system, ...

Force-feedback bilateral teleoperation—the technology that lets human operators feel and manipulate distant objects via a robot—has accelerated markedly in the past decade. In the comprehensive survey ...

Teaching robots no longer requires coding or remote control—it can be as simple as ...

Robots have evolved beyond repetitive tasks to incorporate AI, machine learning, and sensor fusion technologies that enable ...