Ensuring Technology provides the answer: only when they can truly replicate the human sense of touch. From January 6th to 9th ...

How tactile sensing is solving real-world challenges in medicine, transportation, defense, and consumer products. Examples of innovative applications improving safety, performance, and user experience ...

(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 ...

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 ...

In response to the scarcity of physical contact modality data, PaXini unveiled its pioneering "human-centric" omni-modality ...

Why auxetic materials offer some unique advantages in sensor fabrication. How additive manufacturing was used with autextic materials to create unique pressure and force sensors. The structure and ...

A self-powered kirigami cube sensor detects force direction and pressure through one signal channel, enabling compact and efficient tactile input for human-machine interfaces. (Nanowerk Spotlight) ...

What makes a humanoid hand so fascinating? Imagine a robotic gripper delicately assembling intricate components on a factory floor or carefully holding fragile medical instruments during surgery.

Tactile switches with advanced contact materials improve signal integrity, durability, and lifecycle performance in demanding ...