Conventional robots, like those used in industry and hazardous environments, are easy to model and control, but are too rigid ...

Tokyo startup H2L has launched Capsule Interface technology enabling full-body robot control with muscle sensors, offering ...

Carnegie Mellon's noninvasive brain technology allows users to move robotic fingers by thinking about the motion, offering new possibilities for people with motor impairments.

The US Food and Drug Administration (FDA) has granted 510(k) clearance for Mendaera’s Focalist, a handheld robotic system.

JAXA and PickNik's goal was to demonstrate a complex, multi-armed robotic system capable of performing manipulation tasks in ...

Robotic systems have the potential to greatly enhance daily living for the over one billion individuals worldwide who ...

The Sensitive Arm system provides real-time, low-latency force feedback while utilizing integrated torque sensors across all ...

In an office at the Massachusetts Institute of Technology Computer Science and Artificial Intelligence Laboratory, or MIT ...

Researchers bring noninvasive EEG-based BCI one step closer to everyday use by demonstrating real-time brain decoding of individual finger movement intentions and control of a dexterous robotic hand ...

Advanced robotic vision systems are redefining the capabilities of automation in performing precision tasks. By equipping ...

Scientists decode imagined finger movements into robotic control, marking a game-changing moment in noninvasive brain tech.

Researchers have developed an Artificial Intelligence (AI) system that enables a four-legged robot to adapt its gait to ...