A spinal cord injury in most vertebrates likely inhibits locomotion and induces paralysis—not so in eels. They not only ...

Robots designed for neurorehabilitation, specifically for supporting arm and leg movement and motor relearning, are ...

The article presents a modular neural control network that achieves coordination between adhesion and movement by stimulation-inhibiting modules and using different levels of inhibition for the ...

It was found that eels use sensory signals from their bodies, such as stretch and pressure, to adapt to their environment.

A neural circuit model tested in amphibious robots developed at EPFL shows how multisensory feedback enables eels to swim even after a spinal cord injury, while also providing new insights into the ...

Understanding the mechanisms by which the nervous system processes information and how neural circuits control behavior is at the core of Neuroscience. Computational neuroscience complements ...

Insect Locomotion and Neural Control Systems Publication Trend The graph below shows the total number of publications each year in Insect Locomotion and Neural Control Systems.

Coordinated Cats Although genetically modified mouse models have recently become dominant in neural control of locomotion research, the cat model offers an important advantage.

A spinal cord injury in most vertebrates likely inhibits locomotion and induces paralysis. Not eels. They not only possess ...

Coordinated cats Although genetically modified mouse models have recently become dominant in neural control of locomotion research, the cat model offers an important advantage.

Controlling prosthetic hands more precisely by the power of thought Neuroscientists show how fine motor skills of neural prostheses can be improved Date: October 17, 2024 Source: Deutsches ...