EPFL roboticists have shown that when a modular robot shares power, sensing, and communication resources among its individual ...

EPFL researchers have built a modular robot that becomes more reliable as it gains ...

Modular self-reconfigurable robotics encompasses systems in which individual robotic units can autonomously adjust their configuration to adapt to varying tasks and environmental conditions. These ...

Taking inspiration from nature, a team of scientists from Princeton University and Northwestern University is building a swarm of interconnected mini-robots that could one day lead to buildings with ...

What is it about a cheetah's build that enables it to run so fast? What gives the wolf its exceptional endurance? While these questions can be partly answered through animal experiments, many ...

Beyond Japan, PIX's city robots are now operating in diverse scenarios including public road services, community shuttles, campuses, industrial parks, and tourism zones, demonstrating the adaptability ...

To address this challenge, the PKU team developed a reconfigurable, modular soft robotic fish with controllable body stiffness. Understanding how fish balance speed, efficiency, and agility is a ...

When you think of tracked robots, you might think of bomb disposal robots or others used in military applications. You probably haven’t seen anything quite like this, however—it’s a “reconfigurable ...

While reconfigurable soft robots are still in their infancy, such a technique could someday enable general-purpose robots that can adapt their shapes to accomplish diverse tasks. "When people think ...

Formless 'slime' robots that shape-change to complete complex tasks – it sounds like science fantasy. However, MIT researchers have developed a machine-learning technique that brings shape-changing ...

DroneHub reshapes robotics testing with a multi-environment framework, promoting sustainability and addressing the ...