(Nanowerk News) Imagine an advanced robotic hand that can grasp a fragile piece of tofu without crushing it. A research team co-led by researchers from City University of Hong Kong (CityU) has ...

Robots are becoming increasingly capable in vision and movement, yet touch remains one of their major weaknesses. Now, ...

A wave of recent research has brought robotic touch sensitivity closer to human fingertips than ever before, driven by graphene-based composites and machine learning that let artificial skins detect ...

(A) C-Sight, IMM mechanism. (B) C-Tac, MDM mechanism. (C) C-SighTac, IMM + MDM mechanism. (D) Vi-C-Tac, MDM + MFM mechanism. (E) Vi-C-Sight, IMM + MFM mechanism. The diagram for each design ...

A research team has developed a new soft tactile sensor with skin-comparable characteristics. A robotic gripper with the sensor mounted at the fingertip could accomplish challenging tasks such as ...

Tactile sensors are widely used in robotics, prosthetics, wearable devices, and healthcare monitoring. These devices detect and convert external stimuli such as pressure and force into electrical ...

A pair of robotics labs at a Swiss university have developed a soft, wearable skin that provides high-fidelity tactile feedback. Potential uses are wide-ranging and include rehabilitation and virtual ...

The human fingertip is an exquisitely sensitive instrument for perceiving objects in our environment via the sense of touch. A team of Chinese scientists has mimicked the underlying perceptual ...

A flexible foam sensor built from silver selenide detects temperature and pressure simultaneously, enabling a robotic gripper to identify nine different materials with 96% accuracy. (Nanowerk ...