Engineers from MIT and Stanford University have developed a novel robotic gripper inspired by the tenacious growth of vines.

Fiber-type artificial muscles offer a breakthrough in robotic actuation, combining biomimetic design with multifunctional capabilities for diverse applications.

The robo-dog, which is designed to negotiate chaotic situations with accuracy, has the potential to transform ...

Can your body trick your brain into feeling stable? UBC’s robotic simulator shows that boosting inertia and damping can override delayed feedback, offering a breakthrough for fall prevention and ...

MIT's new hydrogel tendons strengthen muscle-powered robots, achieving 11x higher power-to-weight ratio and improved force ...

Researchers developed soft microrobots that change shape with temperature and wirelessly transmit data, enabling real-time ...

What if AI could tell you when your diabetes might get worse—before it happens? From blood sugar trends to retinal scans, ...

While AI can enhance conservation efforts, Cambridge scientists caution against its risks, advocating for ethical frameworks ...

Research from MIT shows AI as a key player in the clean energy transition, optimizing power grids and accelerating materials ...

BoltzGen, an AI model from MIT, innovatively designs protein binders, combining structure prediction with flexible control ...

Coventry University has launched a new study examining whether the use of drone technology can be scaled up to make cities ...