AbstractNeuronal responses exhibit two stimulus or task-related components: evoked and induced. The functional role of induced responses has been ascribed to ‘top-down’ modulation through backward connections and lateral interactions; as opposed to the bottom-up driving processes that may predominate in evoked components. The implication is that evoked and induced components may reflect different neuronal processes. The conventional way of separating evoked and induced responses assumes that they can be decomposed linearly; in that induced responses are the average of the power minus the power of the average (the evoked component). However, this decomposition may not hold if both components are generated by nonlinear processes. In this work...
One common criterion for classifying electrophysiological brain responses is based on the distinctio...
Dynamic causal modeling (DCM) provides a framework for the analysis of effective connectivity among ...
Models of effective connectivity characterize the influence that neuronal populations exert over eac...
Neuronal responses exhibit two stimulus or task-related components: evoked and induced. The function...
AbstractNeuronal responses exhibit two stimulus or task-related components: evoked and induced. The ...
AbstractDynamic causal modelling (DCM) has been applied recently to event-related responses (ERPs) m...
International audienceNeuronally plausible, generative or forward models are essential for understan...
International audienceThe aim of this work was to investigate the mechanisms that shape evoked elect...
International audienceCortical responses, recorded by electroencephalography and magnetoencephalogra...
This paper revisits the dynamic causal modelling of fMRI timeseries by replacing the usual (Taylor) ...
Oscillatory brain activity is a ubiquitous feature of neuronal dynamics and the synchronous dischar...
We present a review of dynamic causal modeling (DCM) for magneto- and electroencephalography (M/EEG)...
AbstractIn this paper, we compare mean-field and neural-mass models of electrophysiological response...
The neocortex typically operates in one of two states. The activated (desynchronized) state, typical...
Background One common criterion for classifying electrophysiological brain responses is based on th...
One common criterion for classifying electrophysiological brain responses is based on the distinctio...
Dynamic causal modeling (DCM) provides a framework for the analysis of effective connectivity among ...
Models of effective connectivity characterize the influence that neuronal populations exert over eac...
Neuronal responses exhibit two stimulus or task-related components: evoked and induced. The function...
AbstractNeuronal responses exhibit two stimulus or task-related components: evoked and induced. The ...
AbstractDynamic causal modelling (DCM) has been applied recently to event-related responses (ERPs) m...
International audienceNeuronally plausible, generative or forward models are essential for understan...
International audienceThe aim of this work was to investigate the mechanisms that shape evoked elect...
International audienceCortical responses, recorded by electroencephalography and magnetoencephalogra...
This paper revisits the dynamic causal modelling of fMRI timeseries by replacing the usual (Taylor) ...
Oscillatory brain activity is a ubiquitous feature of neuronal dynamics and the synchronous dischar...
We present a review of dynamic causal modeling (DCM) for magneto- and electroencephalography (M/EEG)...
AbstractIn this paper, we compare mean-field and neural-mass models of electrophysiological response...
The neocortex typically operates in one of two states. The activated (desynchronized) state, typical...
Background One common criterion for classifying electrophysiological brain responses is based on th...
One common criterion for classifying electrophysiological brain responses is based on the distinctio...
Dynamic causal modeling (DCM) provides a framework for the analysis of effective connectivity among ...
Models of effective connectivity characterize the influence that neuronal populations exert over eac...