Graph theory is now becoming a standard tool in system-level neuroscience. However, endowing observed brain anatomy and dynamics with a complex network representation involves often covert theoretical assumptions and methodological choices which affect the way networks are reconstructed from experimental data, and ultimately the resulting network properties and their interpretation. Here, we review some fundamental conceptual underpinnings and technical issues associated with brain network reconstruction, and discuss how their mutual influence concurs in clarifying the organization of brain function
Since the discovery of small-world and scale-free networks the study of complex systems from a netwo...
How the human brain works is still a question, as is its implication with brain architecture: the no...
How rich functionality emerges from the invariant structural architecture of the brain remains a maj...
| openaire: EC/H2020/851255/EU//ARCTICGraph theory is now becoming a standard tool in system-level n...
Both at rest and during the executions of cognitive tasks, the brain continuously creates and resh...
International audienceThe brain can be regarded as a network: a connected system where nodes, or uni...
Network theory is a branch of mathematics concerned with the analysis of the structure of graphs, t...
Considering the brain as a complex network of interacting dynamical systems offers new insights into...
Although several brain regions show significant specialization, higher functions such as cross-modal...
Recent advances in MRI technology have enabled precise measurements of correlated activity throughou...
Neuroengineering is faced with unique challenges in repairing or replacing complex neural systems th...
Many physical and biological systems can be studied using complex network theory, a new statistical ...
SummaryReal-world complex systems may be mathematically modeled as graphs, revealing properties of t...
International audiencePurpose of reviewDiffusion tractography and functional/effective connectivity ...
AbstractThere is increasing interest in the potential of whole-brain computational models to provide...
Since the discovery of small-world and scale-free networks the study of complex systems from a netwo...
How the human brain works is still a question, as is its implication with brain architecture: the no...
How rich functionality emerges from the invariant structural architecture of the brain remains a maj...
| openaire: EC/H2020/851255/EU//ARCTICGraph theory is now becoming a standard tool in system-level n...
Both at rest and during the executions of cognitive tasks, the brain continuously creates and resh...
International audienceThe brain can be regarded as a network: a connected system where nodes, or uni...
Network theory is a branch of mathematics concerned with the analysis of the structure of graphs, t...
Considering the brain as a complex network of interacting dynamical systems offers new insights into...
Although several brain regions show significant specialization, higher functions such as cross-modal...
Recent advances in MRI technology have enabled precise measurements of correlated activity throughou...
Neuroengineering is faced with unique challenges in repairing or replacing complex neural systems th...
Many physical and biological systems can be studied using complex network theory, a new statistical ...
SummaryReal-world complex systems may be mathematically modeled as graphs, revealing properties of t...
International audiencePurpose of reviewDiffusion tractography and functional/effective connectivity ...
AbstractThere is increasing interest in the potential of whole-brain computational models to provide...
Since the discovery of small-world and scale-free networks the study of complex systems from a netwo...
How the human brain works is still a question, as is its implication with brain architecture: the no...
How rich functionality emerges from the invariant structural architecture of the brain remains a maj...