The human brain is a complex, interconnected network par excellence. Accurate and informative mapping of this human connectome has become a central goal of neuroscience. At the heart of this endeavor is the notion that brain connectivity can be abstracted to a graph of nodes, representing neural elements (e.g., neurons, brain regions), linked by edges, representing some measure of structural, functional or causal interaction between nodes. Such a representation brings connectomic data into the realm of graph theory, affording a rich repertoire of mathematical tools and concepts that can be used to characterize diverse anatomical and dynamical properties of brain networks. Although this approach has tremendous potential - and has seen rapid ...
Although several brain regions show significant specialization, higher functions such as cross-modal...
Central to macro-connectomics and much of systems neuroscience is the idea that we can summarise mac...
Mapping the brain imaging data to networks, where nodes represent anatomical brain regions and edges...
Brain is a part of the organism’s complex structure that performs many functions, which are responsi...
One way to examine the connections between the distinct parts of the human brain is the braingraph,...
Neuroengineering is faced with unique challenges in repairing or replacing complex neural systems th...
Brain is a part of the organism’s complex structure that performs many functions, which are responsi...
AbstractSignificant resources are now being devoted to large-scale international studies attempting ...
Significant resources are now being devoted to large-scale international studies attempting to map t...
Billions of people worldwide are affected by neurological disorders. Recent studies indicate that ma...
Since the discovery of small-world and scale-free networks the study of complex systems from a netwo...
Network science and graph theory applications have recently spread widely to help in understanding h...
Recent advances in non-invasive neuroimaging have enabled the measurement of connections between dis...
Network-based analysis of structural and functional connections has provided a new technique to stud...
An important aspect of neuroscience is to characterize the underlying connectivity patterns of the h...
Although several brain regions show significant specialization, higher functions such as cross-modal...
Central to macro-connectomics and much of systems neuroscience is the idea that we can summarise mac...
Mapping the brain imaging data to networks, where nodes represent anatomical brain regions and edges...
Brain is a part of the organism’s complex structure that performs many functions, which are responsi...
One way to examine the connections between the distinct parts of the human brain is the braingraph,...
Neuroengineering is faced with unique challenges in repairing or replacing complex neural systems th...
Brain is a part of the organism’s complex structure that performs many functions, which are responsi...
AbstractSignificant resources are now being devoted to large-scale international studies attempting ...
Significant resources are now being devoted to large-scale international studies attempting to map t...
Billions of people worldwide are affected by neurological disorders. Recent studies indicate that ma...
Since the discovery of small-world and scale-free networks the study of complex systems from a netwo...
Network science and graph theory applications have recently spread widely to help in understanding h...
Recent advances in non-invasive neuroimaging have enabled the measurement of connections between dis...
Network-based analysis of structural and functional connections has provided a new technique to stud...
An important aspect of neuroscience is to characterize the underlying connectivity patterns of the h...
Although several brain regions show significant specialization, higher functions such as cross-modal...
Central to macro-connectomics and much of systems neuroscience is the idea that we can summarise mac...
Mapping the brain imaging data to networks, where nodes represent anatomical brain regions and edges...