Piezoelectric and triboelectric tactile sensors are designed to convert mechanical stimuli into electrical signals, making them critical components in intelligent systems. Piezoelectric sensors ...

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 ...

Using their Mosquito fabrication method, the researchers created a fan-out pattern of multiple thin light paths inside a thin sheet of PDMS. This created four optical channels that could be used for ...

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 ...

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 ...

One of the main strengths of capacitive tactile sensing technology is its ability to help people access information that would otherwise be impossible to capture. Consider, for example, a ...

A new publication from Opto-Electronic Advances; DOI 10.29026/oea.2022.210029 considers piezoresistive design for electronic skin. Electronic skin (e-skin) represents one major flexible device which ...

Precision motion systems enable highly accurate and repeatable movements crucial for handling delicate semiconductor components. Collaborations like Kenmec and Neura Robotics aim to automate back-end ...

Ensuring Technology provides the answer: only when they can truly replicate the human sense of touch. From January 6th to 9th, Ensuring Technology, the pioneer in embodied intelligent tactile ...