Insects exhibit remarkable locomotor versatility underpinned by highly efficient neural control systems. Their ability to navigate complex terrains relies on the seamless integration of sensory inputs ...

A research article by scientists at the Nanjing University of Aeronautics and Astronautics developed a neural control algorithm to coordinate the adhesive toes and limbs of the climbing robot. The new ...

Fruit flies walking on minature treadmills are helping scientists learn how the nervous system enables animals to move in an unpredictable and complex world. The researchers engineered these ...

Elongated fish like eels and lampreys are remarkable movers. Eels demonstrate exceptional locomotor ability, not only when swimming but also crawling on uneven ground. They can even swim after the ...

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 ...

Thanks to hype in the popular media, the term “automation” tends to conjure images of robots, artificial intelligence and the cloud in the minds of most people. The root of most manufacturing ...

Learn about the most prominent types of modern neural networks such as feedforward, recurrent, convolutional, and transformer networks, and their use cases in modern AI. Neural networks are the ...

Hydraulics remains a reliable backbone for industrial power transmission, now being combined with electronics for enhanced control and efficiency. Advancements in electronics enable real-time feedback ...