Cell-sized robots can sense temperature, make decisions, and move autonomously using nanowatts of power—no external control ...

The device advances medicine toward a future that might see tiny robots sent into the body to rewire damaged nerves, deliver ...

Professor Boyuan Chen poses with some of his 3D printed robots that were designed and built through his new platform called Text2Robot that allows people to simply tell a computer what kind of robot ...

Researchers and students developed a new AI model that generates motion in a variety of robots using simple text commands.

Computer-aided design (CAD) systems are tried-and-true tools used to design many of the physical objects we use each day. But ...

Robots small enough to travel autonomously through the human body to repair damaged sites may seem the stuff of science ...

In 1982, personal computers were beige, boxy, and built for engineers. They were powerful, but uninviting. Few people knew what they were for, or why they might need one. It took more than just better ...

Accuracy and reliability are crucial to any manufacturer, but precision medical device manufacturing faces higher demands than most. Luckily, available technologies make this precision more achievable ...

Michael Milford receives funding from the Australian Research Council, the Australian Economic Accelerator, the Queensland Government, Amazon, Ford Motor Company, iMOVE CRC, the DAAD Australia-Germany ...

Together, the machines represent a long-awaited breakthrough in microscale robotics, a field that has struggled for decades to combine independent motion, sensing, and computing at extremely small ...