While the capabilities of robots have improved significantly over the past decades, they are not always able to reliably and ...

Humans and animals are the key inspiration for many robotic systems developed to date, as they possess body structures that innately support efficient locomotion. While many bipedal (i.e., two-legged) ...

NorthWest African Cheetahs at Chester Zoo. Image by Steve Wilson via Wikipedia (CC BY 2.0) NorthWest African Cheetahs at Chester Zoo. Image by Steve Wilson via Wikipedia (CC BY 2.0) Researchers from ...

Eels have a unique ability to move even after a spinal cord injury, a feat that has long puzzled scientists. An international research team led by Tohoku University has uncovered the secret behind ...

A small drone takes a test flight through a space filled with randomly placed cardboard cylinders acting as stand-ins for trees, people or structures. The algorithm controlling the drone has been ...

Researchers have demonstrated a caterpillar-like soft robot that can move forward, backward and dip under narrow spaces. The caterpillar-bot's movement is driven by a novel pattern of silver nanowires ...

Building conventional robots typically requires carefully combining components like motors, batteries, actuators, body segments, legs, and wheels. Now, researchers have taken a new approach, building ...

Robots are slowly getting smarter, mostly thanks to advances in artificial intelligence that enable them to learn on their own rather than requiring constant human guidance. But despite being able to ...

Robots are taking over the dirty work of sorting through our trash and turning it into valuable resources. And not just any robots, but smart robots that use artificial intelligence (AI) to identify ...

Over the past two decades, humanoid robots have greatly improved their ability to perform functions like grasping objects and using computer vision to detect things since Honda’s release of the ASIMO ...