Experimental and computational studies provide compelling evidence that neuronal systems are characterized by power-law distributions of neuronal avalanche sizes. This fact is interpreted as an indication that these systems are operating near criticality, and, in turn, typical properties of critical dynamical processes, such as optimal information transmission and stability, are attributed to neuronal systems. The purpose of this Rapid Communication is to show that the presence of power-law distributions for the size of neuronal avalanches is not a sufficient condition for the system to operate near criticality. Specifically, we consider a simplistic model of neuronal dynamics on networks and show that the degree distribution of the underly...
The size distribution of neuronal avalanches in cortical networks has been reported to follow a powe...
Neuronal avalanches are a cortical phenomenon defined by bursts of neuronal firing encapsulated by ...
Experimental evidence shows that resting neuronal activity consists of power-law distributed outburs...
Experimental and computational studies provide compelling evidence that neuronal systems are charact...
The finding of power law scaling in neural recordings lendssupport to the hypothesis of critical bra...
The observation of apparent power laws in neuronal systems has led to the suggestion that the brain ...
The tasks of neural computation are remarkably diverse. To function optimally, neuronal networks hav...
The observation of apparent power-laws in neuronal systems has led to the suggestion that the brain ...
We show that in networks with a hierarchical architecture, critical dynamical behaviors can emerge e...
Neuronal avalanches are cascades of bursts of activity observed primarily in the superficial cortica...
In the human brain trillions of neurons transmit information “firing” electrical pulses called actio...
Neuronal avalanches are a novel mode of activity in neuronal networks,experimentally found in vitro ...
The presence of self-organized criticality in biology is often evidenced by a power-law scaling of e...
Brain networks are neither regular nor random. Their structure allows for optimal information proces...
Power laws in nature are considered to be signatures of complexity. The theory of self-organized cri...
The size distribution of neuronal avalanches in cortical networks has been reported to follow a powe...
Neuronal avalanches are a cortical phenomenon defined by bursts of neuronal firing encapsulated by ...
Experimental evidence shows that resting neuronal activity consists of power-law distributed outburs...
Experimental and computational studies provide compelling evidence that neuronal systems are charact...
The finding of power law scaling in neural recordings lendssupport to the hypothesis of critical bra...
The observation of apparent power laws in neuronal systems has led to the suggestion that the brain ...
The tasks of neural computation are remarkably diverse. To function optimally, neuronal networks hav...
The observation of apparent power-laws in neuronal systems has led to the suggestion that the brain ...
We show that in networks with a hierarchical architecture, critical dynamical behaviors can emerge e...
Neuronal avalanches are cascades of bursts of activity observed primarily in the superficial cortica...
In the human brain trillions of neurons transmit information “firing” electrical pulses called actio...
Neuronal avalanches are a novel mode of activity in neuronal networks,experimentally found in vitro ...
The presence of self-organized criticality in biology is often evidenced by a power-law scaling of e...
Brain networks are neither regular nor random. Their structure allows for optimal information proces...
Power laws in nature are considered to be signatures of complexity. The theory of self-organized cri...
The size distribution of neuronal avalanches in cortical networks has been reported to follow a powe...
Neuronal avalanches are a cortical phenomenon defined by bursts of neuronal firing encapsulated by ...
Experimental evidence shows that resting neuronal activity consists of power-law distributed outburs...