A fundamental issue in cognitive neuroscience is how the brain encodes others' actions and
intentions. In recent years, a potential advance in our knowledge on this issue is the …

Existing evidence indicates that mu and other alpha-like rhythms are independent
phenomena because of differences in source generation, sensitivity to sensory events …

The spatiotemporal patterns of Rolandic mu and beta rhythms were studied during motor
imagery with a dense array of EEG electrodes. The subjects were instructed to imagine …

People can learn to control the 8-12 Hz mu rhythm and/or the 18-25 Hz beta rhythm in the
EEG recorded over sensorimotor cortex and use it to control a cursor on a video screen …

Quantified electroencephalography (qEEG) was used to compare cerebral electrical
variations while human subjects (10 males and 10 females) were observing and executing …

Objective: The goal of this study is to investigate the reactivity of central rhythms in the alpha
band during self-paced voluntary finger and foot movement and to give an answer to the …

Changes in central beta-rhythms (14–29 Hz) during movement were investigated in 12 right-
handed subjects by quantifying event-related desynchronisation (ERD). EEG was recorded …

Mu (μ) rhythms are EEG oscillations between 8–13 Hz distinguished from alpha by having
more anterior distribution and being desynchronized by motor rather than visual activity …

Event-related calculation of band power changes can be used to quantify event-related
desynchronization, event-related synchronization, and event-related coherence (ERCoh). It …

Pre-movement event-related desynchronization (ERD) and post-movement event-related
synchronization (ERS) were studied in a group of normal subjects during voluntary thumb …