SWARM members Christina Berry (left) and Harrison Felipe work on their modular robots. The team is composed of electrical, ...

Bees, ants, and termites build complex structures without blueprints, architects, or construction supervisors. Their colonies produce intricate hives and nests by relying on local cues like warmth, ...

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

Nature likes swarms. Birds, ants, bees, brain cells—even people—form swarms when given the chance for reasons that are still not completely understood. They go from being individuals to one cohesive ...

Researchers at the University of Waterloo have developed a system that allows humans to collaborate with groups of robots to create visual art inspired by music. The platform combines swarm robotics, ...

East Fairmont High students brought home an award at this year’s Vex Robotics State Championship at Fairmont State University. East Fairmont fielded two teams, the Titanium Swarm and the ...

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 ...

Swarm robotics harnesses the collective behaviours observed in nature to coordinate large numbers of simple, autonomous agents, enabling them to accomplish complex tasks that would be arduous for a ...

Scale is one of the biggest challenges currently facing the AI and robotics “revolution,” which is to say: How are we going to set up all the infrastructure needed for all these autonomous tools? One ...