Spontaneous, random baby movements aid the development of their sensorimotor system, according to new research led by the University of Tokyo. Detailed motion capture of newborns and infants was ...

Spontaneous, random baby movements aid development of their sensorimotor system, according to new research. Detailed motion capture of newborns and infants was combined with a musculoskeletal computer ...

In tactile sensing, decoding the journey from afferent tactile signals to efferent motor commands is a significant challenge primarily due to the difficulty in capturing population-level afferent ...

Those seemingly random kicks or wiggles a newborn baby makes have a purpose. With each movement, the baby is developing its sensorimotor system, which it will later use to perform sequential movements ...

Researchers at the Medical University of Vienna, in collaboration with ETH Zurich, the Technical University of Munich and Medical Faculty Belgrade, have developed a wearable neurorobotic system that ...

Visual processing of emotional stimuli has been shown to engage complex cortical and subcortical networks, but it is still unclear how it affects sensorimotor integration processes. To fill this gap, ...

In the split second after you hear a noise, your brain is already making a potentially life-or-death deduction: Did I do that ...

A new study isolates the MCA brain nucleus as the central timing hub that calibrates sensory predictions across changing bodies.