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 ...

The Computational Neuroscience Center at Drexel’s Department of Neurobiology and Anatomy brings together a group of computational and experimental researchers with a common interest to understand ...

The primary goal of the CoBaL lab is to understand the neural and biomechanical basis of human upright balance. The bipedal human is inherently unstable and needs a sophisticated control system to ...

Cats always land on their feet, but what makes them so agile? Their unique sense of balance has more in common with humans than it may appear. Researchers are studying cat locomotion to better ...

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 ...

The long-term goals of this project are to investigate the organization of spinal respiratory circuits, evaluate conditions for activation of breathing by stimulation of limb muscle afferents in ...

Cats always land on their feet, but what makes them so agile? Their unique sense of balance has more in common with humans than it may appear. Researchers at the Georgia Institute of Technology are ...