QUT Centre for Robotics researchers have developed a new robot navigation system. Locational Encoding with Neuromorphic Systems (LENS) is set to transform how autonomous robots operate. At its core, ...

QUT robotics researchers have developed a new robot navigation system that mimics the neural processes of the human brain and uses less than 10% of the energy required by traditional systems. In a ...

Imagine driving a car with a steering that doesn't respond instantly and a GPS that always reflects where you were a second ...

What if a robot could show us how the brain keeps us balanced? UBC scientists built one—and their discovery could help shape new ways to reduce fall risk for millions of people. A towering "body-swap" ...

What if a robot could show us how the brain keeps us balanced? UBC scientists built one – and their discovery could help shape new ways to reduce fall risk for millions of people. A towering ...

Scientists in China have developed a ‘brain-on-chip’ system that combines lab-grown human brain matter with a neural interface chip to power a so-called ‘organoid’ robot. It was developed by ...

In a world where automation is advancing by leaps and bounds, collaboration between robots is no longer science fiction. Imagine a warehouse where dozens of machines transport goods without colliding, ...

It’s a bizarre sight: With a short burst of light, a sponge-shaped robot scoots across a tiled surface. Flipped on its back, it repeatedly twitches as if doing sit-ups. By tinkering with the light’s ...

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 ...