The analysis of complex networks has revealed patterns of organization in a variety of natural and artificial systems, including neuronal networks of the brain at multiple scales. In this paper, we describe a novel analysis of the large-scale connectivity between regions of the mammalian cerebral cortex, utilizing a set of hierarchical measurements proposed recently. We examine previously identified functional clusters of brain regions in macaque visual cortex and cat cortex and find significant differences between such clusters in terms of several hierarchical measures, revealing differences in how these clusters are embedded in the overall cortical architecture. For example, the ventral cluster of visual cortex maintains structu...
Abstract Background The organization of the connectivity between ma...
Hierarchy is a major organizational principle of the cortex and underscores modern computational the...
International audienceCurrent theories hold that the human cortex can be subdivided in anatomically ...
The analysis of complex networks has revealed patterns of organization in a variety of natural and a...
Abstract. The analysis of complex networks has revealed patterns of organization in a variety of nat...
Strong regularities of early visual areas interconnections led to the suggestion that rostral direct...
In recent years, many new cortical areas have been identified in the macaque monkey. The number of i...
Neocortical computations underlying vision are performed by a distributed network of functionally sp...
A popular framework to help comprehend the complicated connections and interactions between cortical...
Brain networks are characterized by strong recurrence, and widespread connectivity. As a consequence...
BACKGROUND. The organization of the connectivity between mammalian cortical areas has become a major...
The mammalian brain is a highly complex organ, with a broad range of regional microscale cellular mo...
AbstractHuman higher cognition arises from the main tertiary association cortices including the fron...
The large-scale organization of dynamical neural activity across cortex emerges through long-range i...
Cortical network structure has been extensively characterized at the level of local circuits and in ...
Abstract Background The organization of the connectivity between ma...
Hierarchy is a major organizational principle of the cortex and underscores modern computational the...
International audienceCurrent theories hold that the human cortex can be subdivided in anatomically ...
The analysis of complex networks has revealed patterns of organization in a variety of natural and a...
Abstract. The analysis of complex networks has revealed patterns of organization in a variety of nat...
Strong regularities of early visual areas interconnections led to the suggestion that rostral direct...
In recent years, many new cortical areas have been identified in the macaque monkey. The number of i...
Neocortical computations underlying vision are performed by a distributed network of functionally sp...
A popular framework to help comprehend the complicated connections and interactions between cortical...
Brain networks are characterized by strong recurrence, and widespread connectivity. As a consequence...
BACKGROUND. The organization of the connectivity between mammalian cortical areas has become a major...
The mammalian brain is a highly complex organ, with a broad range of regional microscale cellular mo...
AbstractHuman higher cognition arises from the main tertiary association cortices including the fron...
The large-scale organization of dynamical neural activity across cortex emerges through long-range i...
Cortical network structure has been extensively characterized at the level of local circuits and in ...
Abstract Background The organization of the connectivity between ma...
Hierarchy is a major organizational principle of the cortex and underscores modern computational the...
International audienceCurrent theories hold that the human cortex can be subdivided in anatomically ...