A new category of sensing technology transforms mobile robot vision from 2D to 3D, improves safety performance and provides 50-80% cost savings compared to traditional, LiDAR-based systems and sensor ...

Researchers have developed an L3 F-TOUCH sensor to enhance tactile capabilities in robots, allowing it to 'feel' objects and adjust its grip accordingly. Researchers from Queen Mary University of ...

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 ...

Autonomous mobile robots (AMRs) must be able to survey their surroundings in real time and make decisions based on what’s happening in their local environment. That calls for a wide range of sensing ...

The Vision 60 is an all-weather ground drone that employs a proprietary blind-mode control methodology that allows for movement over rough terrain. It employs cameras and 3D imaging, but the robot can ...

(Nanowerk News) Achieving human-level dexterity during manipulation and grasping has been a long-standing goal in robotics. To accomplish this, having a reliable sense of tactile information and force ...

Researchers from Queen Mary University of London, along with collaborators from China and USA have developed an L3 F-TOUCH sensor to enhance tactile capabilities in robots, allowing it to "feel" ...