Many physical and biological systems can be studied using complex network theory, a new statistical physics understanding of graph theory. The recent application of complex network theory to the study of functional brain networks has generated great enthusiasm as it allows addressing hitherto non-standard issues in the field, such as efficiency of brain functioning or vulnerability to damage. However, in spite of its high degree of generality, the theory was originally designed to describe systems profoundly different fromthe brain.We discuss some important caveats in thewholesale application of existing tools and concepts to a field they were not originally designed to describe. At the same time, we argue that complex network theory has no...
The classical view in systems neuroscience is that individual regions of the brain are specialised f...
Our brain is a network. It consists of spatially distributed, but functionally linked regions that c...
MEG and fMRI offer complementary insights into connected human brain function. Evidence from the use...
Many physical and biological systems can be studied using complex network theory, a new statistical ...
This contribution reviews the current state of art comprising the application of Complex Networks Th...
Since the discovery of small-world and scale-free networks the study of complex systems from a netwo...
Considering the brain as a complex network of interacting dynamical systems offers new insights into...
Network theory is a branch of mathematics concerned with the analysis of the structure of graphs, t...
Both at rest and during the executions of cognitive tasks, the brain continuously creates and resh...
The aim of this book is to describe the types of computation that can be performed by biologically p...
Today, the human brain can be studied as a whole. Electroencephalography, magnetoen-cephalography, o...
How rich functionality emerges from the invariant structural architecture of the brain remains a maj...
Graph theory is now becoming a standard tool in system-level neuroscience. However, endowing observe...
Complexity science is the study of systems that give rise to a priori unexpected macroscopic pattern...
AbstractThe brain is the characteristic of a complex structure. By representing brain function, meas...
The classical view in systems neuroscience is that individual regions of the brain are specialised f...
Our brain is a network. It consists of spatially distributed, but functionally linked regions that c...
MEG and fMRI offer complementary insights into connected human brain function. Evidence from the use...
Many physical and biological systems can be studied using complex network theory, a new statistical ...
This contribution reviews the current state of art comprising the application of Complex Networks Th...
Since the discovery of small-world and scale-free networks the study of complex systems from a netwo...
Considering the brain as a complex network of interacting dynamical systems offers new insights into...
Network theory is a branch of mathematics concerned with the analysis of the structure of graphs, t...
Both at rest and during the executions of cognitive tasks, the brain continuously creates and resh...
The aim of this book is to describe the types of computation that can be performed by biologically p...
Today, the human brain can be studied as a whole. Electroencephalography, magnetoen-cephalography, o...
How rich functionality emerges from the invariant structural architecture of the brain remains a maj...
Graph theory is now becoming a standard tool in system-level neuroscience. However, endowing observe...
Complexity science is the study of systems that give rise to a priori unexpected macroscopic pattern...
AbstractThe brain is the characteristic of a complex structure. By representing brain function, meas...
The classical view in systems neuroscience is that individual regions of the brain are specialised f...
Our brain is a network. It consists of spatially distributed, but functionally linked regions that c...
MEG and fMRI offer complementary insights into connected human brain function. Evidence from the use...