Coordinating groups of underwater robots is difficult because communication below the surface is slow and unreliable. GPS ...

In the ever-evolving landscape of automotive manufacturing, speed and efficiency are crucial determinants of success. The industry has always been at the forefront of technological advancements, but ...

Sabine Hauert, professor of swarm engineering at University of Bristol, will explore how out-of-the-box robot swarms can be implemented within everyday use cases.

Scientists have developed swarms of tiny magnetic robots that work together like ants to achieve Herculean feats, including traversing and picking up objects many times their size. The findings ...

Swarm Intelligence, inspired by collective behaviors in nature, is now being applied to robotics, enabling multiple humanoid robots to collaborate seamlessly on complex tasks. UBTech's Walker S1 ...

The origins of swarm robotics lie in explorations of principles of self-organization and collective decision-making. The early 2000s marked the transition of swarm robotics from theory to practice as ...

The cube-shaped robots, known as M-Blocks have no external moving parts, just flat surfaces, and crawl, spin and stack to create different structures. The MIT-developed robots use magnets to perform ...

In one part of a laboratory in Bristol, UK, scientists are designing a nanoparticle swarm that will be able to target and kill tumour cells intelligently. Interactions between the tiny but simple ...