International audienceCurrent theories hold that brain function is highly related to long-range physical connections through axonal bundles, namely extrinsic connectivity However, obtaining a groupwise cortical parcellation based on extrinsic connectivity remains challenging. Current parcellation methods are computationally expensive; need tuning of several parameters or rely on ad-hoc constraints. Furthermore, none of these methods present a model for the cortical extrinsic connectivity of the cortex. To tackle these problems, we propose a parsimonious model for the extrinsic connectivity and an effcient parceling technique based on clustering of tractograms. Our technique allows t...
One of the most promising avenues for compiling connectivity data originates from the notion that in...
Division of the human cortex into distinct regions is of high importance to neuroscientific inquiry....
Understanding how brain connectivity is organized, and how this constrains brain functionality is a ...
International audienceCurrent theories hold that brain function is highly related with long-range ph...
International audienceCurrent theories hold that brain function is highly related to long-...
International audienceThe human brain is arranged in areas based on criteria such as cytoarchitectur...
International audienceCurrent theories hold that the human cortex can be subdivided in anatomically ...
The macro connectome elucidates the pathways through which brain regions are structurally connected ...
One of the major challenges in systems neuroscience is to identify brain networks and unravel their ...
International audienceIn this paper, we present a method that aims at parcellating the cortical surf...
In-vivo parcellation of the human cortex into functional brain areas is a major goal to better under...
[Abstract] In this article, we present a hybrid method to create fine-grained parcellations of the c...
In modern neuroscience there is general agreement that brain function relies on networks and that co...
Background and objective In computational neuroimaging, brain parcellation methods subdivide the bra...
For over a century, neuroscientists have been working toward parcellating the human cortex into dist...
One of the most promising avenues for compiling connectivity data originates from the notion that in...
Division of the human cortex into distinct regions is of high importance to neuroscientific inquiry....
Understanding how brain connectivity is organized, and how this constrains brain functionality is a ...
International audienceCurrent theories hold that brain function is highly related with long-range ph...
International audienceCurrent theories hold that brain function is highly related to long-...
International audienceThe human brain is arranged in areas based on criteria such as cytoarchitectur...
International audienceCurrent theories hold that the human cortex can be subdivided in anatomically ...
The macro connectome elucidates the pathways through which brain regions are structurally connected ...
One of the major challenges in systems neuroscience is to identify brain networks and unravel their ...
International audienceIn this paper, we present a method that aims at parcellating the cortical surf...
In-vivo parcellation of the human cortex into functional brain areas is a major goal to better under...
[Abstract] In this article, we present a hybrid method to create fine-grained parcellations of the c...
In modern neuroscience there is general agreement that brain function relies on networks and that co...
Background and objective In computational neuroimaging, brain parcellation methods subdivide the bra...
For over a century, neuroscientists have been working toward parcellating the human cortex into dist...
One of the most promising avenues for compiling connectivity data originates from the notion that in...
Division of the human cortex into distinct regions is of high importance to neuroscientific inquiry....
Understanding how brain connectivity is organized, and how this constrains brain functionality is a ...