Dice are examples of so-called "rigid bodies," broadly defined as shapes that move as one solid piece, with no need for ...

In a leap forward for genetic and biomedical research, two scientists at the University of Missouri have developed a powerful ...

Mario Cucinella Architects has constructed a 3D printed amphitheater on Venice's San Servolo Island made of 720 modular ...

“Currently, 0% of functional parts are designed by AI. However, HP believes that in the next two years, the adoption of AI-designed functional parts will grow exponentially. This presents a unique ...

As the conflict in Ukraine has demonstrated, the battlefield of the future will be defined by the innovative and ...

Researchers created a stretchy battery that can take any shape. It could power next-generation wearables and other small tech ...

This breakthrough in battery power could bring wearable tech, implanted medical devices, and humanoid robots to life.

The material can, for instance, be used in a 3D printer to shape the battery as you please ... Together with his colleagues at the Laboratory of Organic Electronics, LOE, he has developed a battery ...

An AI method enables the generation of sharp, high-quality 3D shapes that are closer to the quality of the best 2D image models. Previous approaches typically generated blurry or cartoonish 3D shapes.

But in 3D, these curvy, almost organic forms have no corners at all. Once the researchers identified the new shapes, they began to see them all over the place—in nature, art and architecture.

Researchers have created microscale robots less than 1 millimeter in size that are printed as a 2D hexagonal 'metasheet' but, with a jolt of electricity, morph into preprogrammed 3D shapes and crawl.

Autodesk trained the model on ten million 3d shapes—a composite dataset made up of publicly available data, a mixture of CAD objects and organic shapes. Who is this designed for? Autodesk ...