Functional neuroimaging studies have led to understanding the brain as a collection of spatially segregated functional networks. It is thought that each of these networks is in turn composed of a set of distinct sub-regions that together support each network's function. Considering the sub-regions to be an essential part of the brain's functional architecture, several strategies have been put forward that aim at identifying the functional sub-units of the brain by means of functional parcellations. Current parcellation strategies typically employ a bottom-up strategy, creating a parcellation by clustering smaller units. We propose a novel top-down parcellation strategy, using time courses of instantaneous connectivity to subdivide an initia...
We propose a new method to parcellate the cerebral cortex based on spatial dependancy in the fluctua...
Background and objective In computational neuroimaging, brain parcellation methods subdivide the bra...
The human brain can be characterized as functional networks. Therefore, it is important to subdivide...
Functional neuroimaging studies have led to understanding the brain as a collection of spatially seg...
Node definition or delineating how the brain is parcellated into individual functionally related reg...
Network analysis of resting-state fMRI (rsfMRI) has been widely utilized to investigate the function...
We propose a novel computational strategy to partition the cerebral cortex into disjoint, spatially ...
We propose a novel computational strategy to partition the cerebral cortex into disjoint, spatially ...
Network analysis of resting-state fMRI (rsfMRI) has been widely utilized to investigate the function...
A defining aspect of brain organization is its spatial heterogeneity, which gives rise to multiple t...
AbstractNoninvasive parcellation of the human cerebral cortex is an important goal for understanding...
Noninvasive parcellation of the human cerebral cortex is all important goal for understanding and ex...
Regional specialization and functional integration are often viewed as two fundamental principles of...
<p>The human brain can be characterized as functional networks. Therefore, it is important to subdiv...
The capacity to identify the unique functional architecture of an individual’s brain is a critical s...
We propose a new method to parcellate the cerebral cortex based on spatial dependancy in the fluctua...
Background and objective In computational neuroimaging, brain parcellation methods subdivide the bra...
The human brain can be characterized as functional networks. Therefore, it is important to subdivide...
Functional neuroimaging studies have led to understanding the brain as a collection of spatially seg...
Node definition or delineating how the brain is parcellated into individual functionally related reg...
Network analysis of resting-state fMRI (rsfMRI) has been widely utilized to investigate the function...
We propose a novel computational strategy to partition the cerebral cortex into disjoint, spatially ...
We propose a novel computational strategy to partition the cerebral cortex into disjoint, spatially ...
Network analysis of resting-state fMRI (rsfMRI) has been widely utilized to investigate the function...
A defining aspect of brain organization is its spatial heterogeneity, which gives rise to multiple t...
AbstractNoninvasive parcellation of the human cerebral cortex is an important goal for understanding...
Noninvasive parcellation of the human cerebral cortex is all important goal for understanding and ex...
Regional specialization and functional integration are often viewed as two fundamental principles of...
<p>The human brain can be characterized as functional networks. Therefore, it is important to subdiv...
The capacity to identify the unique functional architecture of an individual’s brain is a critical s...
We propose a new method to parcellate the cerebral cortex based on spatial dependancy in the fluctua...
Background and objective In computational neuroimaging, brain parcellation methods subdivide the bra...
The human brain can be characterized as functional networks. Therefore, it is important to subdivide...