Researchers from Shanghai Jiao Tong University and the University of Shanghai for Science have successfully developed a new robot that uses traditional Chinese medicine (TCM) techniques to give ...

Over the past decades, roboticists have introduced a wide range of systems that can effectively tackle some real-world ...

Robots small enough to travel autonomously through the human body to repair damaged sites may seem the stuff of science ...

Scientists have long puzzled over why some dinosaurs had feathers and wings long before they evolved the ability of flight. Experiments with a robot dinosaur may now have revealed the answer – they ...

Tiny robots small enough to slip through blood vessels are moving from speculative fiction into the medical lab, promising ...

Tiny robots smaller than a grain of rice can sense, think, and move on their own. They could one day fix tissue inside the human body.

A bipedal robot made from an artificial skeleton and biological muscle is able to walk and pivot when stimulated with electricity, allowing it to carry out finer movements than previous biohybrid ...

Researchers have developed resilient artificial muscles that can enable insect-scale aerial robots to effectively recover flight performance after suffering severe damage. Bumblebees are clumsy fliers ...

Inside the robotics laboratory of the Toyota Research Institute (TRI) in Cambridge, Massachusetts, a group of robots are busy cooking. There is nothing special about that; robotic chefs have been ...

Caging and grasping techniques are central to the advancement of mobile robotics, providing robust methods for object manipulation in unstructured environments. Caging is a strategy where robot ...

Image courtesy by QUE.com With the rapid advancement of technology, humanoid robots are moving out of laboratories and test ...