A deep-learning powered single-strained electronic skin sensor can capture human motion from a distance. The single strain sensor placed on the wrist decodes complex five-finger motions in real time ...

Chinese scientists have developed a major breakthrough in the development of electronic skin (e-skin), creating a three-dimensional (3D) architected sensor that mimics the sensory functions of human ...

Technological progress has provided numerous types of health-related devices from wristwatches sensing heartbeat and mobile applications tracking hormonal cycles to the wearable “electronic skin” ...

Being able to beam yourself into a robotic body has all kinds of applications, from the practical to the fanciful. Existing interfaces that could make this possible tend to be bulky, but a wireless ...

Human skin is soft and stretchy and has millions of nerve endings that sense heat and touch. This makes it a superb instrument for detecting and responding to the outside world. Engineers have been ...

Researchers have developed a method to make adaptive and eco-friendly sensors that can be directly and imperceptibly printed onto a wide range of biological surfaces, whether that's a finger or a ...

Researchers have taken wearable sensors to the next level with the development of a flexible, semiconducting film that can be worn as a type of e-skin for various sensing applications. MIT engineers ...

The Electronic Skin (E-Skin) Market is emerging as one of the most innovative sectors in healthcare and wearable technology. Combining advancements in material science, nanotechnology, and artificial ...

video: A deep-learning powered single-strained electronic skin sensor can capture human motion from a distance. The single strain sensor placed on the wrist decodes complex five-finger motions in real ...