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 ...

Humanoid and bipedal robot control systems represent a dynamic confluence of robotics, control theory and artificial intelligence. These systems are designed to enable robots to navigate complex ...

Proprietary systems have traditionally dominated the control of three and four-axis wafer handling robots for in-vacuum and in-air wafer applications. As a result, these systems can be limited in ...

Our robots at home can operate simple tasks they are programmed to perform. Vacuum the floors, for example, and if the left-side sensor detects a wall, try to go around it. But traditional robotic ...

As robots and AI systems increasingly enter shared workspaces, domestic environments, and assistive contexts, understanding and predicting human behavior ...

The Earth's oceans, covering over 70% of the planet's surface, represent a vast frontier for scientific discovery and resource utilization, yet remain ...

A world-class field operation advancing robotic systems for air, land, sea, and space. The RSL conducts a world-class field robotics program in which interdisciplinary teams of students develop and ...

AI and advanced robotic are helping to transform hydropower operations worldwide, boosting efficiency, safety, and renewable ...

While so far robots have predominantly been deployed individually, as teams, they can tackle a wider range of complex missions with remarkable speed and efficiency. For instance, they could help to ...

Weed control is essential in apple orchards because weeds compete with trees for nutrients, water and sunlight, which can reduce fruit yields. However, physically removing weeds is not only ...

If researchers achieve the goals they have set for themselves, apple and grape growers should see the day when their dormant pruning will be done by robots instead of people. Pruning is ...