The technology developed in this research is anticipated to be widely applicable in various fields, including tracking worker positions within factories, enabling voice-based human-robot collaboration ...

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 ...

The future is now…and it’s tiny. In A Nutshell Researchers built autonomous robots just 210-340 micrometers wide, roughly the ...

This article examines how cameras are deployed in robotics and how GMSL can enable scalable, performance-driven robotic platforms.

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 ...

A joint research team has developed a stretchable and adhesive microneedle sensor that can be attached to the skin and stably measure high-quality electrophysiological signals for a long period of ...

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 ...

Figure 1. Design and working concept of the Stretchable microNeedle Adhesive Patch (SNAP). (A) Schematic illustration showing the overall system configuration and application of SNAP. (B) Exploded ...

Industrial robots perform myriad tasks including electronic and mechanical assembly, product testing, and material handling. On-board force/torque (F/T) sensors help robots verify part insertion, hold ...