Underwater robots face many challenges before they can truly master the deep, such as stability in choppy currents. A new ...

Legged robot locomotion and control encompass the integration of advanced mechanical design, sensorimotor coordination and adaptive algorithms to enable agile and efficient movement over diverse ...

Miniature Underwater Robots (MURs) are revolutionizing how humans explore aquatic environments. However, achieving efficient propulsion in highly resistive underwater conditions remains a formidable ...

Robots that can think and move are no longer confined to factory floors or humanoid prototypes. Researchers have now shrunk ...

Soft actuation remains the key bottleneck in creating soft robots with flexible deformation and agile locomotion similar to nature creatures. Despite extensive efforts, it remains performance ...

Researchers at the University of Michigan’s Robotics Department and the Southern University of Science and Technology in China published a research paper discussing the use of discrete-time hybrid ...

Climbing robots represent a rapidly evolving field in robotics, offering innovative solutions for tasks that are often hazardous, labour‐intensive or inaccessible for humans. These systems utilise ...

Although soft-bodied robots themselves can be fairly simple, low-cost devices, they typically require complex onboard electronics to control their locomotion. Such is not the case with a new bot, ...

Machine learning, Raspberry Pis, and sea turtles are all exciting topics of conversation that don’t seem to have much in common. Amazingly, though, by combining the three, a group of researchers from ...