A team of researchers at the University of California San Diego has created a soft robotic skin that enables millimeter-wide vine-like robots to navigate tight and fragile environments.

How advanced actuators, compliance control, and real-time planning create capable, safe humanoid collaborators.

The next-generation iPad mini 8 could feature an updated design that removes the speaker holes for improved water resistance, ...

In this video we open up an F1 gearbox to reveal the precision engineering that makes it one of the most advanced components in motorsport. We break down how seamless-shift systems work, the role of ...

Sharp7Extend was programmed differently in that it does not have a delayed fuse. Downloaded more than 2,000 times according ...

Researchers have unveiled a novel class of AI-enhanced artificial muscles built from bio-inspired, lifelike materials.

A well-calibrated approach founded on a set of real-world use cases, must be followed for inducting AI into the public sector ...

A semi-automatic transmission combines the best features of both modern automatic and old-school manual gearboxes. Here's how ...

The increasing frequency of climate-related disasters, including hurricanes, wildfires, and heat waves, highlights the ...

The commercialization of clothing-type wearable robots has taken a significant step forward with the development of equipment ...

An international team led by researchers at the University of Waterloo has developed a new material that can be used as flexible artificial muscles to replace rigid motors and pumps in robots and ...