Researchers have successfully developed an ultra-sensitive pressure sensor for electronic skin modeled after the nervous system in the human brain. This technology is applicable to future devices, ...

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 ...

In a groundbreaking new study, researchers have developed an electronic skin that allows humanoid robots to distinguish everyday touch from damaging force. That ability, once reserved for living ...

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 ...

A new electronic skin sensor uses magnetic cilia to detect both pressure and magnetic fields for applications in health and touchless interfaces. (Nanowerk Spotlight) Electronic skin, or e-skin, ...

Humanoid robots are starting to gain something that once belonged firmly in the realm of science fiction: a sense of pain. Chinese researchers have built a neuromorphic electronic skin that lets ...

A new publication from Opto-Electronic Sciences; DOI 10.29026/oes.2024.240005, discusses advances in optical micronanofiber enabled tactile sensors and soft actuators. As a perfect combination of ...

Check out more Hannover Messe 2023 videos and articles. Melexis' Tactaxis integrated tactile sensor is a compact and soft device that provides 3D force vector information to improve the performance ...

The high-density stretchable multimodal sensor achieves effective hardness estimation through the synergistic operation of integrated pressure and strain sensors, enabling accurate discrimination of ...