Scientists at Empa have discovered how scaly-tailed squirrels grip trees, paving the way for agile, energy-efficient bionic robots and drones.

Scaly-tailed squirrels use thorny tail scales for grip on smooth trees. New models reveal the physics behind this, inspiring ...

Self-driving labs are central to the mission of the Acceleration Consortium, an institutional strategic initiative at U of T ...

Trained on vast image libraries, these AI models can instantly analyze a 3D point cloud, identify the target SKU, ignore the surrounding objects, and calculate the item's precise orientation for ...

Mujin OS is designed to eliminate robot programming through AI-driven autonomy, digital twin technology and real-time motion ...

ETH Zurich researchers have trained their quadruped robot ANYmal to pick up a ball and throw it across a field, demonstrating ...

Advanced robotic vision systems are redefining the capabilities of automation in performing precision tasks. By equipping ...

African scaly-tailed squirrels use their scaled tails to safely move across the smooth bark of trees in their native ...

Discover why robots excel at math but struggle with human-like tasks. Explore Moravec's Paradox and the future of adaptable ...

The rise of collaborative robots (cobots) – driven by AI, machine vision, and modular designs – are revolutionising smart ...

Oliver Mitchell, a partner at ff Venture Capital, recaps highlights from recent trade shows including Automate and Xponential ...