Introduction Human locomotion is affected by several factors, such as growth and aging,
health conditions, and physical activity levels for maintaining overall health and well-being …

In the last decade, the source and the functional meaning of motor variability have attracted
considerable attention in behavioral and brain sciences. This construct classically combined …

Brain–computer interfaces (BCIs) have been widely employed to identify and estimate a
user's intention to trigger a robotic device by decoding motor imagery (MI) from an …

Abstract Previous studies of Brain Computer Interfaces (BCI) based on scalp
electroencephalography (EEG) have demonstrated the feasibility of decoding kinematics for …

Age modifies walking balance and neuromuscular control. Cognitive and postural
constraints can increase walking balance difficulty and magnify age-related differences …

Underwater walking is one of the most common hydrotherapeutic exercises. Therefore,
understanding muscular control during underwater walking is important for optimizing …

Action observation (AO) and motor imagery (MI) are motor simulations which induce cortical
activity related to execution of observed and imagined movements. Neuroimaging studies …

Objective: While neuroplasticity and functional reorganization during motor recovery can be
indirectly reflected and evaluated by functional corticomuscular coupling (fCMC), little work …

Objective: To clarify whether there are any muscle synergy changes in individuals with knee
osteoarthritis, and to determine whether muscle synergy analysis could be applied to other …

Modification of ongoing walking movement to fit changes in external environments requires
accurate voluntary control. In cats, the motor and posterior parietal cortices have crucial …