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 ...

While engineers have long optimised electronics for performance, efficiency and form factor, a shift is now underway ...

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 ...

Capacitive sensors are typically cost-effective and deliver low-power performance features aligned with today’s trends for consumer and industrial applications. Capacitive sensors are cost effective ...

Tactile mechanoreceptors are essential for environmental interaction and movement. Traditional tactile sensors in wearables and robotics often fall short, especially in restoring touch in cases of ...

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 ...

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 ...

Suitable for area pressure measurements such as pinch roller calibrations, caster pressures, and tire footprints, the 0.3-mm-thick ITS industrial tactile sensor can measure pressures as high as 500 ...