How does the brain compute? Answering this question necessitates neuronal connectomes, annotated graphs of all synaptic connections within defined brain areas. Further, understanding the energetics of the brain's computations requires vascular graphs. The assembly of a connectome requires sensitive hardware tools to measure neuronal and neurovascular features in all three dimensions, as well as software and machine learning for data analysis and visualization. We present the state of the art on the reconstruction of circuits and vasculature that link brain anatomy and function. Analysis at the scale of tens of nanometers yields connections between identified neurons, while analysis at the micrometer scale yields probabilistic rules of c...
The connectivity architecture of neuronal circuits is essential to understand how brains work, yet o...
One of the most fascinating challenges in neuroscience is the reconstruction of the connectivity map...
The structure of the nervous system is extraordinarily complicated because individual neurons are in...
How does the brain compute? Answering this question necessitates neuronal connectomes, annotated gra...
How does the brain compute? Answering this question necessitates neuronal connectomes, annotated gra...
How does the brain compute? Answering this question necessitates neuronal connectomes, annotated gra...
Howdoes the brain compute? Answering this question necessitates neuronal connectomes, annotated grap...
Reconstructing the human connectome is one of the 21st century’s major scientific en-deavors. By dec...
Reconstructing a map of neuronal connectivity is a critical challenge in contemporary neuroscience. ...
An adult human brain has more than 100 billion neurons and 250 trillion neural con-nections. Connect...
Construction of comprehensive and detailed brain regions neuroanatomical connections matrices (macro...
Much like genomics, brain connectomics has rapidly become a core component of most national brain pr...
The nervous system is characterized by extremely complex cell-to-cell interactions which primarily o...
Brain networks, localized or brain-wide, exist only at the cellular level, i.e., between specific pr...
Thesis: M. Eng. in Computer Science and Engineering, Massachusetts Institute of Technology, Departme...
The connectivity architecture of neuronal circuits is essential to understand how brains work, yet o...
One of the most fascinating challenges in neuroscience is the reconstruction of the connectivity map...
The structure of the nervous system is extraordinarily complicated because individual neurons are in...
How does the brain compute? Answering this question necessitates neuronal connectomes, annotated gra...
How does the brain compute? Answering this question necessitates neuronal connectomes, annotated gra...
How does the brain compute? Answering this question necessitates neuronal connectomes, annotated gra...
Howdoes the brain compute? Answering this question necessitates neuronal connectomes, annotated grap...
Reconstructing the human connectome is one of the 21st century’s major scientific en-deavors. By dec...
Reconstructing a map of neuronal connectivity is a critical challenge in contemporary neuroscience. ...
An adult human brain has more than 100 billion neurons and 250 trillion neural con-nections. Connect...
Construction of comprehensive and detailed brain regions neuroanatomical connections matrices (macro...
Much like genomics, brain connectomics has rapidly become a core component of most national brain pr...
The nervous system is characterized by extremely complex cell-to-cell interactions which primarily o...
Brain networks, localized or brain-wide, exist only at the cellular level, i.e., between specific pr...
Thesis: M. Eng. in Computer Science and Engineering, Massachusetts Institute of Technology, Departme...
The connectivity architecture of neuronal circuits is essential to understand how brains work, yet o...
One of the most fascinating challenges in neuroscience is the reconstruction of the connectivity map...
The structure of the nervous system is extraordinarily complicated because individual neurons are in...