Humanoid robots move by walking on two legs and using robotic arms to manipulate objects. Their motion relies on balance, ...

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.

For robots to be predictable and adaptive, they need a priority-based architecture and a new legal model, argues a researcher ...

A groundbreaking robot that's like a real-life Wall-E uses advanced artificial intelligence to replicate natural gestures and deliberate actions with striking accuracy.

The new algorithm could help robots make safer, smarter decisions around humans, even amidst the greatest uncertainties.

MIT professor Daniela Rus explains how AI-powered robots are being trained to safely assist in homes and daily life.

Explore how researchers are using quantum computing to enhance the movement of robots, making them more efficient and smooth.

ALLEX is engineered to handle multiple tasks using its ability to respond to stimuli like humans do. It has 15 degrees of freedom (DOF) to make life-like movement and complex interactions. It detects ...

This one-day, immersive event will explore how humanoid robots, combined with advancements in machine vision, artificial intelligence, and motion control, are beginning to transform manufacturing ...