Neural models describe brain activity at different scales, ranging from single cells to whole brain networks. Here, we attempt to reconcile models operating at the microscopic (compartmental) and mesoscopic (neural mass) scales to analyse data from microelectrode recordings of intralaminar neural activity. Although these two classes of models operate at different scales, it is relatively straightforward to create neural mass models of ensemble activity that are equipped with priors obtained after fitting data generated by detailed microscopic models. This provides generative (forward) models of measured neuronal responses that retain construct validity in relation to compartmental models. We illustrate our approach using cross spectral resp...
AbstractIn this paper, we compare mean-field and neural-mass models of electrophysiological response...
Oscillations are omnipresent in neural population signals, like multi-unit recordings, EEG/MEG, and ...
This paper shows how gamma oscillations can be combined with neural population models and <em>dynami...
Neural models describe brain activity at different scales, ranging from single cells to whole brain ...
AbstractThis paper presents a dynamic causal model based upon neural field models of the Amari type....
All rights reserved. We review two new approaches for studying cortical representations of sensory s...
Neural rhythms or oscillations are ubiquitous in neuroimaging data. These spectral responses have be...
AbstractThe aim of this paper is twofold: first, to introduce a neural field model motivated by a we...
Neural activity is organized at multiple scales, ranging from the cellular to the whole brain level....
The ability to quantify synaptic function at the level of cortical microcircuits from non-invasive d...
non-peer-reviewedWe describe a Bayesian inference scheme for quantifying the active physiology of ne...
Dynamic causal modeling (DCM) provides a framework for the analysis of effective connectivity among ...
AbstractThis paper describes a neural field model for local (mesoscopic) dynamics on the cortical su...
The analysis of neural circuits can provide crucial insights into the mechanisms of neurodegeneratio...
The analysis of neural circuits can provide crucial insights into the mechanisms of neurodegeneratio...
AbstractIn this paper, we compare mean-field and neural-mass models of electrophysiological response...
Oscillations are omnipresent in neural population signals, like multi-unit recordings, EEG/MEG, and ...
This paper shows how gamma oscillations can be combined with neural population models and <em>dynami...
Neural models describe brain activity at different scales, ranging from single cells to whole brain ...
AbstractThis paper presents a dynamic causal model based upon neural field models of the Amari type....
All rights reserved. We review two new approaches for studying cortical representations of sensory s...
Neural rhythms or oscillations are ubiquitous in neuroimaging data. These spectral responses have be...
AbstractThe aim of this paper is twofold: first, to introduce a neural field model motivated by a we...
Neural activity is organized at multiple scales, ranging from the cellular to the whole brain level....
The ability to quantify synaptic function at the level of cortical microcircuits from non-invasive d...
non-peer-reviewedWe describe a Bayesian inference scheme for quantifying the active physiology of ne...
Dynamic causal modeling (DCM) provides a framework for the analysis of effective connectivity among ...
AbstractThis paper describes a neural field model for local (mesoscopic) dynamics on the cortical su...
The analysis of neural circuits can provide crucial insights into the mechanisms of neurodegeneratio...
The analysis of neural circuits can provide crucial insights into the mechanisms of neurodegeneratio...
AbstractIn this paper, we compare mean-field and neural-mass models of electrophysiological response...
Oscillations are omnipresent in neural population signals, like multi-unit recordings, EEG/MEG, and ...
This paper shows how gamma oscillations can be combined with neural population models and <em>dynami...