Adaptive body representation requires the continuous integration of multisensory inputs
within a flexible 'body model'in the brain. The present review evaluates the idea that this …

The human sensorimotor cortex demonstrates a variety of oscillatory activity that is strongly
modulated by movement and somatosensory input. Studies using scalp EEG and …

The brain adapts to dynamic environments by adjusting the attentional gain or precision
afforded to salient and predictable sensory input. Previous research suggests that this …

Attention plays a fundamental role in selectively processing stimuli in our environment
despite distraction. Spatial attention induces increasing and decreasing power of neural …

Rhythmic neural activity within the alpha (8–12 Hz) and beta (15–25 Hz) frequency bands is
modulated during actual and imagined movements. Changes in these rhythms provide a …

Successful social interactions rely upon the abilities of two or more people to mutually
exchange information in real-time, while simultaneously adapting to one another. The neural …

At any given moment, we receive input through our different sensory systems, and this
information needs to be processed and integrated. Multisensory processing requires the …

There have been a number of studies suggesting that oscillatory alpha activity (~ 10 Hz)
plays a pivotal role in attention by gating information flow to relevant sensory regions. The …

In principle, selective attention is the net result of target selection and distractor suppression.
The way in which both mechanisms are implemented neurally has remained contested …

Many studies have now consistently reported that the phase angle of ongoing oscillatory
activity (measured using EEG/MEG), at time of stimulus presentation influences detection …