Researchers at the Intelligent Biomimetic Design Lab at Peking University have developed a bio-signal framework showing that ...

Our muscles are nature's actuators. The sinewy tissue is what generates the forces that make our bodies move. In recent years, engineers have used real muscle tissue to actuate "biohybrid robots" made ...

Breaking away from conventional robots that perform only predefined functions once fabricated, researchers have developed a ...

A new artificial muscle can change shape, repair damage, and be reused, bringing a major shift in how robots are built and used.

NUS scientists have developed a self-training method that strengthens lab-grown muscle tissues around the clock, and used them to power a living-muscle robot that swims faster than any of its ...

Scientists have developed a self-training method that strengthens lab-grown muscle tissues around the clock, and used them to power a living-muscle robot that swims faster than any of its predecessors ...

Researchers at Seoul National University have developed an artificial muscle that can change shape ...

A new robotic breakthrough out of South Korea may soon turn your clothes into assistive tech. Researchers have found a way to mass-produce ultra-thin "fabric muscles" that can flex and lift like human ...

Hydraulically powered robot actuators are typically noisy. The electrofluidic muscle from MIT Media Lab and Politecnico di Bari, however, operates silently.

Researchers created tough hydrogel artificial tendons, attached them to lab-grown muscle to form a muscle-tendon unit, then linked the tendons to a robotic gripper's fingers. (Nanowerk News) Our ...

Assistant Professor Tan Yu Jun (right), PhD student Mr Zhou Jinrun (left), and their team from the National University of Singapore established a simple but ingenious method that produced lab-grown ...