Recent advances in robotics have accelerated the development of sophisticated collision detection methodologies and enhanced human–robot interaction (HRI) protocols to ensure safety and optimise ...

As the boundaries between robots and collaborative robots (cobots) fade, the need for fast, agile and uncaged robot systems grows rapidly. Today’s cobots typically rely on power- and force-limiting ...

Why would one of the most sophisticated humanoid robots in the world want to get up from the floor in a way no human ever would? The answer lies deep in the interaction between sensor limitations, ...

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 ...

As robotics technology continues to advance, enabling precise and reliable collaboration between humans and robots has become increasingly important across ...

A new technological advancement gives robotic systems a natural sense of touch without extra skins or sensors. With advanced force sensing and deep learning, this robot can feel where you touch, ...

In a groundbreaking development, scientists have found a way to give robots a sense of touch without relying on expensive artificial skin. This innovation, spearheaded by a team from the German ...

ROURKELA: Innovators at the National Institute of Technology-Rourkela (NIT-R) have secured patent for a robotic system ...

A new meta-learning framework inspired by how babies explore the world could help robots adapt faster, handle objects safely, ...