A robot's sensitivity to touch could be vastly improved by an array of polymer-based tactile sensors that has been combined with a robust signal-processing algorithm to classify surface textures. The ...

Innovative piezoelectric and triboelectric manufacturing enhances tactile sensors, enabling sensitivity, flexibility, and efficiency for robotics, wearables, and interactive systems. Piezoelectric and ...

A recent study published in Engineering presents a significant advancement in robotic tactile sensing technology. Researchers have developed a novel soft tactile unit named the F 3 T sensor, which can ...

Scientists have developed a wearable liquid-based microfluidic tactile sensor that is small, thin, highly flexible and durable. Simple and cost-effective to produce, this novel device is very suitable ...

The latest tactile sensor advances from flexible electronics to multi-modal sensing. New manufacturing methods supporting scalable, cost-effective production. Best practices for integrating sensors, ...

Touch is the sense that brings us into direct contact with reality, revealing shape, texture, and resistance. Designing soft sensors to mimic biological fingertips facilitates natural haptic ...

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 ...