NUS researchers have developed a platform that lets lab-grown muscle tissues train themselves to record-breaking strength, ...

Researchers at the National University of Singapore have developed a new way to make lab-grown muscles stronger by letting them train themselves, removing a major limitation in biohybrid robotics. The ...

Researchers at the University of Tokyo have created a two-legged biohybrid robot, combining an artificial skeleton with biological muscle, which is capable of walking and pivoting underwater. Typical ...

While biohybrid robots that crawl and swim have been built before with lab-grown muscle, this is the first such bipedal robot that can pivot and make sharp turns. It does this by applying electricity ...

Researchers at the University of Bristol have created a network of simple mechanical motors ...

Compared to robots, human bodies are flexible, capable of fine movements, and can convert energy efficiently into movement. Drawing inspiration from human gait, researchers from Japan crafted a ...

This sped-up video of the robot underwater shows the legs walking forward, with the muscle contractions being stimulated by electricity. Researchers at the University of Tokyo have created a ...

Sometimes nature provides the best blueprints for building effective robots. It also can provide the best material. Billions of years of natural selection has built some pretty impressive machinery, ...

MIT has recently unveiled a novel design concept focusing on the development of flexible skeletons tailored for soft, muscle-powered robots. Engineers have long been intrigued by the potential of ...

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 ...