Researchers at Stanford University have successfully developed a stretchy, transparent, skin-like sensor which can be used in such applications as prosthetic limbs, robotics, and touch-sensitive ...

Robots need power to do anything, just like us. Think about it – without energy, even the most complex machine is just a pile ...

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 ...

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 ...

The development of a cutting-edge graphene sensor has led to the creation of an interface that is able to accurately control a robot using thought alone. The development has positive implications not ...

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 ...

This sensor integrates two core technologies: a 3D acoustic perception technology that estimates the 3D positions of humans or objects even in noisy environments, and a sound wave-based dual ...

Though we’re mostly unaware of it, our senses relentlessly work together to guide us through the world. Our vision, hearing, and sense of touch and smell create mental images of the environment at ...

Humanoid robots have enthused public imagination for decades, from Honda’s ASIMO to Tesla’s Optimus and Agility Robotics’ Digit. However, what makes these machines deeply human is what lies under the ...