International audienceWhile beta activity has been extensively studied in relation to voluntary movement, its role in sensorimotor adaptation remains largely uncertain. Recently, it has been shown that the post-movement beta rebound as well as beta activity during movement-preparation are modulated by movement errors. However, there are critical functional differences between pre-and post-movement beta activities. Here, we addressed two related open questions. Do the pre-and post-movement error-related modulations arise from distinct neural substrates? Do these modulations relate to efferent signals shaping muscle-activation patterns or do they reflect integration of sensory information, intervening upstream of the motor output? For this pu...
It has been proposed that accurate motor control relies on Bayesian inference that integrates sensor...
Movement induced modulation of the beta rhythm is one of the most robust neural oscillatory phenomen...
Synchronized oscillatory activity in the beta frequency band (13-30 Hz) can be detected in the cereb...
While beta activity has been extensively studied in relation to voluntary movement, its role in sens...
International audienceIn a recent study, Tan et al. (2014a,b) showed that the increase in -power ty...
Beta oscillations are a dominant feature of the sensorimotor system. A transient and prominentincrea...
International audiencePrevious research suggests that so-called implicit and explicit processes of m...
International audienceBeta frequency oscillations in scalp electroencephalography (EEG) recordings o...
International audienceSince the first descriptions of sensorimotor rhythms by Berger (1929) and by J...
À ce jour, le rôle des oscillations bêta n’a pas encore été clairement établi. Des travaux récents o...
Movements are associated with a beta (15-30 Hz) power decrease during movement preparation and a reb...
Modulation of beta-band neural oscillations during and following movement is a robust marker of brai...
It has been known for many years that the power of beta-band oscillatory activity in motor-related b...
Abstract Movement is accompanied by beta power changes over frontal and sensorimotor regions: a decr...
Post-feedback frontal midline EEG activity has been found to correlate with error magnitude during m...
It has been proposed that accurate motor control relies on Bayesian inference that integrates sensor...
Movement induced modulation of the beta rhythm is one of the most robust neural oscillatory phenomen...
Synchronized oscillatory activity in the beta frequency band (13-30 Hz) can be detected in the cereb...
While beta activity has been extensively studied in relation to voluntary movement, its role in sens...
International audienceIn a recent study, Tan et al. (2014a,b) showed that the increase in -power ty...
Beta oscillations are a dominant feature of the sensorimotor system. A transient and prominentincrea...
International audiencePrevious research suggests that so-called implicit and explicit processes of m...
International audienceBeta frequency oscillations in scalp electroencephalography (EEG) recordings o...
International audienceSince the first descriptions of sensorimotor rhythms by Berger (1929) and by J...
À ce jour, le rôle des oscillations bêta n’a pas encore été clairement établi. Des travaux récents o...
Movements are associated with a beta (15-30 Hz) power decrease during movement preparation and a reb...
Modulation of beta-band neural oscillations during and following movement is a robust marker of brai...
It has been known for many years that the power of beta-band oscillatory activity in motor-related b...
Abstract Movement is accompanied by beta power changes over frontal and sensorimotor regions: a decr...
Post-feedback frontal midline EEG activity has been found to correlate with error magnitude during m...
It has been proposed that accurate motor control relies on Bayesian inference that integrates sensor...
Movement induced modulation of the beta rhythm is one of the most robust neural oscillatory phenomen...
Synchronized oscillatory activity in the beta frequency band (13-30 Hz) can be detected in the cereb...