AbstractThe network architecture of the human brain has become a feature of increasing interest to the neuroscientific community, largely because of its potential to illuminate human cognition, its variation over development and aging, and its alteration in disease or injury. Traditional tools and approaches to study this architecture have largely focused on single scales—of topology, time, and space. Expanding beyond this narrow view, we focus this review on pertinent questions and novel methodological advances for the multi-scale brain. We separate our exposition into content related to multi-scale topological structure, multi-scale temporal structure, and multi-scale spatial structure. In each case, we recount empirical evidence for such...
With the rapid development of advanced neuroimaging techniques, understanding the brain in terms of ...
Mapping the brain structure and function is one of the hardest problems in science. Different image ...
none5We study fNMRI signals of spontaneous neural activity in human brain, with a time resolution of...
AbstractThe network architecture of the human brain has become a feature of increasing interest to t...
Most accounts of human cognitive architectures have focused on computational accounts of cognition w...
International audienceA complete understanding of the brain requires an integrated description of th...
The last two decades have seen an unprecedented development of human brain mapping approaches at var...
The last two decades have seen an unprecedented development of human brain mapping approaches at var...
<div><p>Human brain anatomy and function display a combination of modular and hierarchical organizat...
Understanding how the human brain is structured, and how its architecture is related to function, is...
<div><p>Large-scale white matter pathways crisscrossing the cortex create a complex pattern of conne...
Structural connectivity in the brain is typically studied by reducing its observation to a single sp...
Human brain networks can be characterized at different temporal or spatial scales given by the age o...
Large-scale white matter pathways crisscrossing the cortex create a complex pattern of connectivity ...
Objective. Complex spatiotemporal neural activity encodes rich information related to behavior and c...
With the rapid development of advanced neuroimaging techniques, understanding the brain in terms of ...
Mapping the brain structure and function is one of the hardest problems in science. Different image ...
none5We study fNMRI signals of spontaneous neural activity in human brain, with a time resolution of...
AbstractThe network architecture of the human brain has become a feature of increasing interest to t...
Most accounts of human cognitive architectures have focused on computational accounts of cognition w...
International audienceA complete understanding of the brain requires an integrated description of th...
The last two decades have seen an unprecedented development of human brain mapping approaches at var...
The last two decades have seen an unprecedented development of human brain mapping approaches at var...
<div><p>Human brain anatomy and function display a combination of modular and hierarchical organizat...
Understanding how the human brain is structured, and how its architecture is related to function, is...
<div><p>Large-scale white matter pathways crisscrossing the cortex create a complex pattern of conne...
Structural connectivity in the brain is typically studied by reducing its observation to a single sp...
Human brain networks can be characterized at different temporal or spatial scales given by the age o...
Large-scale white matter pathways crisscrossing the cortex create a complex pattern of connectivity ...
Objective. Complex spatiotemporal neural activity encodes rich information related to behavior and c...
With the rapid development of advanced neuroimaging techniques, understanding the brain in terms of ...
Mapping the brain structure and function is one of the hardest problems in science. Different image ...
none5We study fNMRI signals of spontaneous neural activity in human brain, with a time resolution of...