From Flexible Sensing to the Haptic Revolution in Humanoid Robots. Report Total: 35 pages. From Flexible Sensing to the ...

From Flexible Sensing to the Tactile Revolution in Humanoid Robots. The report consists of: 35 pages. From Flexible Sensing ...

The skin comprises 15% of the total adult body weight; its thickness ranges from <0.1mm at its thinnest part (eyelids) to 1.5mm at its thickest part (palms of the hands and soles of the feet) ...

This artificial skin will enhance in-depth analyses of physiological skin functions, provide solutions to skin problems caused by diseases or aging, and reduce the need for animal testing.

Researchers at RIKEN in Japan have developed an improved human-skin equivalent that reproduces a property that controls the structure and physiological function of skin. This artificial skin will ...

Human skin has evolved to allow maximum durability and flexibility, according to new research from Binghamton University, State University of New York.

Scientists simplify fabrication methods and model human skin structure in designing wearable sensors. This methodology reduces costs, enhances scalability and modular fabrication, and provides ...

While current silicone skin made for robots can mimic human appearance, it falls short when it comes to delicate textures like wrinkles and lacks skin-specific functions.