The human brain is a very complex network. Cerebral function therefore does not imply activation of isolated brain regions but instead involves distributed networks in the brain (Bassett and Sporns, 2017, McIntosh, 2000). Therefore, the analysis of the brain connectivity from neuroimaging data has an important role to understand cognitive functions (Sporns, 2010). Thanks to its excellent spatial resolution, fMRI has become one of the most common non-invasive methods used to study this connectivity. However, fMRI has a low temporal resolution which makes it very difficult to monitor the dynamics of brain networks. A considerable challenge in cognitive neuroscience is therefore the identification and monitoring of brain networks over short ti...
International audienceOver the past 30 years, neuroimaging has become a predominant technique. One m...
Comprendre l'organisation de la connectivité structurelle du cerveau ainsi que comment celle-ci cont...
Understanding the full complexity of the brain has been a challenging research project for decades, ...
The human brain is a very complex network. Cerebral function therefore does not imply activation of ...
Le cerveau humain est un réseau très complexe. Le fonctionnement cérébral ne résulte donc pas de l'a...
The human brain is a complex network. Cognitive function is guaranteed when the brain dynamically re...
We picture the brain as a complex network of structurally connected regions that are functionally co...
Le cerveau humain est un réseau complexe. Une fonction cognitive efficace est garantie lorsque le ce...
As a complex system, the brain flexibly processes information through dynamic reconfiguration of dis...
Nous nous représentons le cerveau comme un réseau complexe de régions structurellement connectées et...
En tant que système complexe, le cerveau traite de manière flexible les informations grâce à une rec...
The emerging area of complex networks has led to a paradigm shift in neuroscience. Connectomes estim...
Electroencephalography (EEG) is still considered nowadays as a convenient neuroimaging technique in ...
Understanding how brain regions interact to perform a given task is a very challenging task. Electro...
International audienceOver the past 30 years, neuroimaging has become a predominant technique. One m...
Comprendre l'organisation de la connectivité structurelle du cerveau ainsi que comment celle-ci cont...
Understanding the full complexity of the brain has been a challenging research project for decades, ...
The human brain is a very complex network. Cerebral function therefore does not imply activation of ...
Le cerveau humain est un réseau très complexe. Le fonctionnement cérébral ne résulte donc pas de l'a...
The human brain is a complex network. Cognitive function is guaranteed when the brain dynamically re...
We picture the brain as a complex network of structurally connected regions that are functionally co...
Le cerveau humain est un réseau complexe. Une fonction cognitive efficace est garantie lorsque le ce...
As a complex system, the brain flexibly processes information through dynamic reconfiguration of dis...
Nous nous représentons le cerveau comme un réseau complexe de régions structurellement connectées et...
En tant que système complexe, le cerveau traite de manière flexible les informations grâce à une rec...
The emerging area of complex networks has led to a paradigm shift in neuroscience. Connectomes estim...
Electroencephalography (EEG) is still considered nowadays as a convenient neuroimaging technique in ...
Understanding how brain regions interact to perform a given task is a very challenging task. Electro...
International audienceOver the past 30 years, neuroimaging has become a predominant technique. One m...
Comprendre l'organisation de la connectivité structurelle du cerveau ainsi que comment celle-ci cont...
Understanding the full complexity of the brain has been a challenging research project for decades, ...