Beta oscillations have been predominantly observed in sensorimotor cortices and basal
ganglia structures and they are thought to be involved in somatosensory processing and …

Abstract Information processing in the brain is governed by oscillatory activity. Activity
oscillations in specific frequency bands (theta, alpha, beta and gamma) have been …

Background Rapidly changing excitability states in an oscillating neuronal network can
explain response variability to external stimulation, but if repetitive stimulation of always the …

In this review, we consider the potential functional role of beta-band oscillations, which at
present is not yet well understood. We discuss evidence from recent studies on top-down …

Considerable progress has been made in developing models of cerebellar function in
sensorimotor control, as well as in identifying key problems that are the focus of current …

Synchronous rhythms represent a core mechanism for sculpting temporal coordination of
neural activity in the brain-wide network. This review focuses on oscillations in the cerebral …

Motor cortical beta activity (13–30 Hz) is a hallmark signature of healthy and pathological
movement, but its behavioural relevance remains unclear. Using high-precision …

Neurons have a striking tendency to engage in oscillatory activities. One important type of
oscillatory activity prevalent in the motor system occurs in the beta frequency band, at about …

In contrast to scalp EEG, our knowledge of the normal physiological intracranial EEG activity
is scarce. This multicentre study provides an atlas of normal intracranial EEG of the human …

The ability to generate temporal predictions is fundamental for adaptive behavior. Precise
timing at the time-scale of seconds is critical, for instance to predict trajectories or to select …