Bioinspired e-skin could help domestic robots sense touch 23 Nov 2018 Isabelle Dumé Spinosum inspires e-skin A soft and sensitive electronic skin containing an array of capacitors that can measure the ...

Researchers argue that the problem that has been lurking in the margins of many papers about touch sensors lies in the robotic skin itself.

Soft robots need advanced sensing to safely interact with humans, but combining multiple sensors in soft materials is difficult. Researchers have developed a new vision-based sensing system called ...

Robots could soon have a softer, more human touch thanks to optical pressure sensors embedded in an artificial "skin." Robots are hardly known for their gentle actions -- it's either on or off, so ...

In order for robots to operate safely around humans, they need to see that people are approaching and they need to know when ...

Researchers have developed an L3 F-TOUCH sensor to enhance tactile capabilities in robots, allowing it to 'feel' objects and adjust its grip accordingly.

Graphene at the fiber's multi walled core increases resistance on pressure, delivering flexible, sensitive touch sensing for ...

By identifying and addressing this issue, the team unlocked the potential for low-cost robotic skins to deliver precise, human-like touch.

Tech expert Kurt “CyberGuy" Knutsson reveals how scientists developed a method for robots to sense touch using AI and sensors.

The flexible oe-skin sensor offers real-time pressure and chemical detection, paving the way for robots to interact more naturally with their environment.

Researchers uncover a hidden flaw in robotic touch sensors, offering a solution that enhances reproducibility and sensor performance.