A recent publication provides the network graph for a neocortical microcircuit comprising 8 million connections between 31,000 neurons. Since traditional graph-theoretical methods may not be sufficient to understand the immense complexity of such a biological network, we explored whether methods from algebraic topology could provide a new perspective on its structural and functional organization. Structural topological analysis revealed that directed graphs representing connectivity among neurons in the microcircuit deviated significantly from different varieties of randomized graph. In particular, the directed graphs contained in the order of 10 simplices groups of neurons with all-to-all directed connectivity. Some of these simplices cont...
Biological neuronal networks constitute a special class of dynamical systems, as they are formed by ...
This paper represents a contribution to the study of the brain functional connectivity from the pers...
We introduce comparative connectomics, the quantitative study of cross-species commonalities and var...
International audienceStructure–function studies of neuronal networks have recently benefited from c...
Uncovering structural regularities and architectural topologies of cortical circuitry is vital for u...
Many kinds of complex systems exhibit characteristic patterns of temporal correlations that emerge a...
Abstract. Current analyses of complex biological networks focus either on their global statistical c...
Since the discovery of small-world and scale-free networks the study of complex systems from a netwo...
The lack of a formal link between neural network structure and its emergent function has hampered ou...
The ultimate goal of neuroscience is understanding the brain at a functional level. This requires th...
This paper describes how to analytically characterize the connectivity of neuromorphic networks tak...
The dynamics of spontaneous fluctuations in neural activity are shaped by underlying patterns of ana...
Investigating connectivity and dynamics in the healthy and diseased striatum network using algebraic...
To address the issue of extracting useful information from large data-set of large scale networks of...
One of the paramount challenges in neuroscience is to understand the dynamics of individual neurons ...
Biological neuronal networks constitute a special class of dynamical systems, as they are formed by ...
This paper represents a contribution to the study of the brain functional connectivity from the pers...
We introduce comparative connectomics, the quantitative study of cross-species commonalities and var...
International audienceStructure–function studies of neuronal networks have recently benefited from c...
Uncovering structural regularities and architectural topologies of cortical circuitry is vital for u...
Many kinds of complex systems exhibit characteristic patterns of temporal correlations that emerge a...
Abstract. Current analyses of complex biological networks focus either on their global statistical c...
Since the discovery of small-world and scale-free networks the study of complex systems from a netwo...
The lack of a formal link between neural network structure and its emergent function has hampered ou...
The ultimate goal of neuroscience is understanding the brain at a functional level. This requires th...
This paper describes how to analytically characterize the connectivity of neuromorphic networks tak...
The dynamics of spontaneous fluctuations in neural activity are shaped by underlying patterns of ana...
Investigating connectivity and dynamics in the healthy and diseased striatum network using algebraic...
To address the issue of extracting useful information from large data-set of large scale networks of...
One of the paramount challenges in neuroscience is to understand the dynamics of individual neurons ...
Biological neuronal networks constitute a special class of dynamical systems, as they are formed by ...
This paper represents a contribution to the study of the brain functional connectivity from the pers...
We introduce comparative connectomics, the quantitative study of cross-species commonalities and var...