When designing fish-like underwater robots, you want a means of propulsion which is both energy-efficient and reasonably speedy. A new tail-flapping system may fit the bill, paving the way for wider ...

Researchers at the Intelligent Biomimetic Design Lab at Peking University have developed a bio-signal framework showing that fish muscles do far more than generate swimming motion. In a series of ...

A coil-powered robot fish could make underwater exploration more accessible. A coil-powered robot fish designed by scientists at the University of Bristol could make underwater exploration more ...

The study of robotic fish and underwater vehicle dynamics presents a fascinating convergence of biomimetics and fluid mechanics. Drawing inspiration from the streamlined efficiency and manoeuvrability ...

Researchers from Peking University have conducted a series of studies on fish muscles. The research shows that the muscles ...

A coil-powered robot fish designed by scientists at the University of Bristol could make underwater exploration more accessible. The robot fish was fitted with a twisted and coiled polymer (TCP) to ...