From flocks of birds to fish schools in the sea, or towering termite mounds, many social groups in nature exist together to survive and thrive. This cooperative behavior can be used by engineers as ...

Swarm robotics design follows the behavior of insects operating in a group, such as ants and bees. Autonomous robots need to be aware of their power system, especially regarding battery life. Power ...

Ask 100 robotics scientists why they’re inspired to create modern-day automatons and you may get 100 different answers. For a team at Harvard University, it’s termites. “Not the ones around here that ...

The phrase "the whole is greater than the sum of its parts" is doubly true for SWARM, the WashU Robotics team on the cutting edge of modular robotics. The project’s 15 members are working to create ...

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 ...

Curious how robot swarms can operate far longer in 6G edge computing setups? A new Engineering study reveals a smart subset selection strategy that taps into data correlation between robots, cutting ...

Forget teaching robots to think like humans. A field called swarm robotics is taking inspiration from ants, bees and even slime molds—simple creatures that achieve remarkable feats through collective ...