The Readiness Potential (RP) is a slow negative EEG potential found in the seconds preceding voluntary actions. Here, we explore whether the RP is found only at this time, or if it also occurs when no action is produced. Recent theories suggest the RP reflects the average of accumulated stochastic fluctuations in neural activity, rather than a specific signal related to self-initiated action: RP-like events should then be widely present, even in the absence of actions. We investigated this hypothesis by searching for RP-like events in background EEG of an appropriate dataset for which the action-locked EEG had previously been analysed to test other hypotheses [Khalighinejad, N., Brann, E., Dorgham, A., Haggard, P. Dissociating cognitive and...
Self-initiated movements are reliably preceded by a gradual buildup of neuronal activity known as th...
A gradual buildup of neuronal activity known as the “readiness potential” reliably precedes voluntar...
A gradual buildup of electrical potential over motor areas precedes self-initiated movements. Recent...
Actions are guided by a combination of external cues, internal intentions, and stored knowledge. Sel...
International audienceThe Readiness Potential (RP) is a slowly increasing surface-negative cortical ...
A gradual buildup of electrical potential over motor areas precedes self-initiated movements. Recent...
Voluntary actions are preceded by a Readiness Potential (RP), a slow EEG component generated in medi...
Voluntary movements are usually preceded by a slow, negative-going brain signal over motor areas, th...
The readiness potential (RP) has been widely interpreted to indicate preparation for movement and is...
Voluntary, self-initiated actions are preceded by slowly increasing neural activity in pre-motor reg...
First discovered in 1965 by Kornhuber and Deecke, the readiness potential (RP) is a distinctive buil...
The initiation of voluntary action is preceded by up to 2 s of preparatory neural activity, originat...
The readiness potential (RP), which is a slow negative electrical brain potential that occurs before...
Anticipatory behavior is aimed at goals that can be reached in the near future. Underlying this beha...
The readiness potential in brain waves is a brain activity related with an intention whose potential...
Self-initiated movements are reliably preceded by a gradual buildup of neuronal activity known as th...
A gradual buildup of neuronal activity known as the “readiness potential” reliably precedes voluntar...
A gradual buildup of electrical potential over motor areas precedes self-initiated movements. Recent...
Actions are guided by a combination of external cues, internal intentions, and stored knowledge. Sel...
International audienceThe Readiness Potential (RP) is a slowly increasing surface-negative cortical ...
A gradual buildup of electrical potential over motor areas precedes self-initiated movements. Recent...
Voluntary actions are preceded by a Readiness Potential (RP), a slow EEG component generated in medi...
Voluntary movements are usually preceded by a slow, negative-going brain signal over motor areas, th...
The readiness potential (RP) has been widely interpreted to indicate preparation for movement and is...
Voluntary, self-initiated actions are preceded by slowly increasing neural activity in pre-motor reg...
First discovered in 1965 by Kornhuber and Deecke, the readiness potential (RP) is a distinctive buil...
The initiation of voluntary action is preceded by up to 2 s of preparatory neural activity, originat...
The readiness potential (RP), which is a slow negative electrical brain potential that occurs before...
Anticipatory behavior is aimed at goals that can be reached in the near future. Underlying this beha...
The readiness potential in brain waves is a brain activity related with an intention whose potential...
Self-initiated movements are reliably preceded by a gradual buildup of neuronal activity known as th...
A gradual buildup of neuronal activity known as the “readiness potential” reliably precedes voluntar...
A gradual buildup of electrical potential over motor areas precedes self-initiated movements. Recent...