Korean researchers have secured flexible electronic skin technology that can be fabricated directly in the field. This ...

Researchers in South Korea have developed a new type of electronic skin that can be made directly where it is needed, ...

A UV laser and 3D printer create large flexible tactile sensor arrays directly on target surfaces, simplifying fabrication ...

A new publication from Opto-Electronic Advances; DOI 10.29026/oea.2025.240152, discusses how multi-photon bionic skin realizes high-precision haptic visualization for reconstructive perception. Human ...

$$\left[\begin{array}{c}B\\ {R}_{{xz}}\\ {R}_{{yz}}\end{array}\right]=\left[\begin{array}{c}{a}_{0}{{\rm{e}}}^{{kz}}+{b}_{0}\\ {a}_{1}\tan \left({kx}\right)+{b}_{1 ...

The human nervous system is noisy, redundant, and supremely capable. Now, robotics engineers are emulating these flaws not in ...

Flexible tactile sensors are receiving considerable interest due to their potential in diverse fields, including physiological monitoring and wearable electronics. Despite numerous studies to broaden ...

(Nanowerk Spotlight) Our skin endows us with a profoundly multifaceted sensory awareness unmatched in machines. Human touch conveys intricate patterns of pressure, thermal flow and subsurface textures ...

Estimating the location of contact is a primary function of artificial tactile sensing apparatuses that perceive the environment through touch. Existing contact localization methods use flat geometry ...

Imagine a prosthetic hand that can feel the warmth of a coffee cup, or a smart bandage that tracks your pulse and breathing. Scientists are now one step closer to making these a reality —thanks to a ...

At CES, Electronic Design talked with Japan-based FingerVision CEO Yuji Nono about his company’s approach to tactile sensors. Inside the gripper lives an optical-based tactile sensor with ...