Over the past decade, social robotics and affective AI have emerged as promising tools in educational and therapeutic ...

Teaching robots to manipulate objects with humanlike dexterity has long been one of robotics' toughest challenges. Tasks such ...

Field robotics encompasses the design and deployment of autonomous or semi-autonomous machines that operate in unstructured, often outdoor, environments. Unlike factory or service robots, field robots ...

Diverse and inclusive teams are not merely a moral imperative but also a catalyst for scientific excellence in robotics, scientists point out in a study. The team has outlined how a scientific ...

While service and consumer robotics adoption could grow, industrial automation faces greater demand and bigger obstacles, ...

When you hear the word robotics, you probably think of factory machines or humanoid robots sprinting across a test track. That image makes sense. For years, robotics lived in labs and industrial ...

On land, in air, in space, and underwater, as individuals and as teams, autonomous machines increasingly impact infrastructure, healthcare, security, manufacturing, and the environment. Our research ...

UD's Yaskawa Motoman Robotics Lab focuses on research related to visual servoing, metrology and calibration, real-time control and other topics relevant to industrial robotics. The lab functions as ...

As interest in robotics and what is increasingly termed ‘physical AI’ grows, higher education institutions are grappling with a fundamental question: can robotics be taught as a standalone discipline, ...