Scientists from the Graduate School of Information Science and Technology at Osaka University used animal location tracking along with artificial intelligence to automatically detect walking behaviors ...

Snakes and lizards have distinct body movement patterns. Lizards bend from side to side as they retract their legs to walk or run. Snakes, on the other hand, slither and undulate, like a wave that ...

Humans are highly sensitive to the bodily movement of other people. Our ability to comprehend body language is crucial to our social thriving, providing information on emotion and behavioral ...

Flexible motor control is essential for navigating complex, unpredictable environments. Although movement execution is often associated with stereotyped patterns of neural and muscular activation, the ...

Researchers use zebrafish models to discover that the RLS risk gene MEIS1 regulates Purkinje cell survival and motor control.

For older adults especially, to perform everyday activities safely, adaptive locomotion that adjusts basic locomotion pattern according to the environmental features is critical. It is unknown, ...

Researchers at the Institute of Biotechnology, University of Helsinki, have uncovered multi-level relationships between locomotion—the ways animals move—and brain architecture, using high-definition 3 ...

People usually assume that all snakes move with serpentine locomotion, using S-shaped movements to propel themselves. However, not all snakes move in such a way. There is another type of locomotion ...

Osaka, Japan – Scientists from the Graduate School of Information Science and Technology at Osaka University used animal location tracking along with artificial intelligence to automatically detect ...

Researchers have uncovered multi-level relationships between locomotion - the ways animals move - and brain architecture, using high-definition 3D models of lizard and snake brains. Researchers at the ...