Add to ORKGThe concept of the brain as a critical dynamical system is very attractive because systems close to criticality are thought to maximize their dynamic range of information processing and communication. To date, there have been two key experimental observations in support of this hypothesis: (i) neuronal avalanches with power law distribution of size and (ii) long-range temporal correlations (LRTCs) in the amplitude of neural oscillations. The case for how these maximize dynamic range of information processing and communication is still being made and because a significant substrate for information coding and transmission is neural synchrony it is of interest to link synchronization measures with those of criticality. We propose a framework f...
Brain function depends on segregation and integration of information processing in brain networks of...
The human brain spontaneously generates neural oscillations with a large variability in frequency, a...
The human brain spontaneously generates neural oscillations with a large variability in frequency, a...
Abstract. The concept of the brain as a critical dynamical system is very attractive because sys-tem...
The concept of the brain as a critical dynamical system is very attractive because systems close to ...
Self-organized criticality is an attractive model for human brain dynamics, but there has been littl...
The critical brain hypothesis provides a framework for viewing the human brain as a critical system,...
The brain has been proposed to operate near a critical transition between order and disorder, contro...
The brain has been proposed to operate near a critical transition between order and disorder, contro...
Understanding the complex dynamics of the human brain is one of the most exciting challenges in mode...
Since the introduction of the concept of "self-organised criticality" by Bak, Tang and Wiesenfeld in...
There is mounting evidence that neural networks of the cerebral cortex exhibit scale invariant dynam...
Includes supplementary materials for the online appendix.Converging research suggests that the resti...
We show theoretically that the hypothesis of criticality as a theory of long-range fluctuation in th...
We show theoretically that the hypothesis of criticality as a theory of long- range fluctuation in t...
Brain function depends on segregation and integration of information processing in brain networks of...
The human brain spontaneously generates neural oscillations with a large variability in frequency, a...
The human brain spontaneously generates neural oscillations with a large variability in frequency, a...
Abstract. The concept of the brain as a critical dynamical system is very attractive because sys-tem...
The concept of the brain as a critical dynamical system is very attractive because systems close to ...
Self-organized criticality is an attractive model for human brain dynamics, but there has been littl...
The critical brain hypothesis provides a framework for viewing the human brain as a critical system,...
The brain has been proposed to operate near a critical transition between order and disorder, contro...
The brain has been proposed to operate near a critical transition between order and disorder, contro...
Understanding the complex dynamics of the human brain is one of the most exciting challenges in mode...
Since the introduction of the concept of "self-organised criticality" by Bak, Tang and Wiesenfeld in...
There is mounting evidence that neural networks of the cerebral cortex exhibit scale invariant dynam...
Includes supplementary materials for the online appendix.Converging research suggests that the resti...
We show theoretically that the hypothesis of criticality as a theory of long-range fluctuation in th...
We show theoretically that the hypothesis of criticality as a theory of long- range fluctuation in t...
Brain function depends on segregation and integration of information processing in brain networks of...
The human brain spontaneously generates neural oscillations with a large variability in frequency, a...
The human brain spontaneously generates neural oscillations with a large variability in frequency, a...